[1] Frank Arute, Kunal Arya, Ryan Babbush, Dave Bacon, Joseph C. Bardin, Rami Barends, Rupak Biswas, Sergio Boixo, Fernando G. S. L. Brandao, David A. Buell, Brian Burkett, Yu Chen, Zijun Chen, Ben Chiaro, Roberto Collins, William Courtney, Andrew Dunsworth, Edward Farhi, Brooks Foxen, Austin Fowler, Craig Gidney, Marissa Giustina, Rob Graff, Keith Guerin, Steve Habegger, Matthew P. Harrigan, Michael J. Hartmann, Alan Ho, Markus Hoffmann, Trent Huang, Travis S. Humble, Sergei V. Isakov, Evan Jeffrey, Zhang Jiang, Dvir Kafri, Kostyantyn Kechedzhi, Julian Kelly, Paul V. Klimov, Sergey Knysh, Alexander Korotkov, Fedor Kostritsa, David Landhuis, Mike Lindmark, Erik Lucero, Dmitry Lyakh, Salvatore Mandrà, Jarrod R. McClean, Matthew McEwen, Anthony Megrant, Xiao Mi, Kristel Michielsen, Masoud Mohseni, Josh Mutus, Ofer Naaman, Matthew Neeley, Charles Neill, Murphy Yuezhen Niu, Eric Ostby, Andre Petukhov, John C. Platt, Chris Quintana, Eleanor G. Rieffel, Pedram Roushan, Nicholas C. Rubin, Daniel Sank, Kevin J. Satzinger, Vadim Smelyanskiy, Kevin J. Sung, Matthew D. Trevithick, Amit Vainsencher, Benjamin Villalonga, Theodore White, Z. Jamie Yao, Ping Yeh, Adam Zalcman, Hartmut Neven, and John M. Martinis, "Quantum supremacy using a programmable superconducting processor", Nature 574 7779, 505 (2019).

[2] Vojtěch Havlíček, Antonio D. Córcoles, Kristan Temme, Aram W. Harrow, Abhinav Kandala, Jerry M. Chow, and Jay M. Gambetta, "Supervised learning with quantum-enhanced feature spaces", Nature 567 7747, 209 (2019).

[3] Jarrod R. McClean, Sergio Boixo, Vadim N. Smelyanskiy, Ryan Babbush, and Hartmut Neven, "Barren plateaus in quantum neural network training landscapes", Nature Communications 9, 4812 (2018).

[4] Colin D. Bruzewicz, John Chiaverini, Robert McConnell, and Jeremy M. Sage, "Trapped-ion quantum computing: Progress and challenges", Applied Physics Reviews 6 2, 021314 (2019).

[5] Abhinav Kandala, Kristan Temme, Antonio D. Córcoles, Antonio Mezzacapo, Jerry M. Chow, and Jay M. Gambetta, "Error mitigation extends the computational reach of a noisy quantum processor", Nature 567 7749, 491 (2019).

[6] Andrew W. Cross, Lev S. Bishop, Sarah Sheldon, Paul D. Nation, and Jay M. Gambetta, "Validating quantum computers using randomized model circuits", Physical Review A 100 3, 032328 (2019).

[7] Sergei Slussarenko and Geoff J. Pryde, "Photonic quantum information processing: A concise review", Applied Physics Reviews 6 4, 041303 (2019).

[8] Seth Lloyd and Christian Weedbrook, "Quantum Generative Adversarial Learning", Physical Review Letters 121 4, 040502 (2018).

[9] Harper R. Grimsley, Sophia E. Economou, Edwin Barnes, and Nicholas J. Mayhall, "An adaptive variational algorithm for exact molecular simulations on a quantum computer", Nature Communications 10, 3007 (2019).

[10] Victor V. Albert, Kyungjoo Noh, Kasper Duivenvoorden, Dylan J. Young, R. T. Brierley, Philip Reinhold, Christophe Vuillot, Linshu Li, Chao Shen, S. M. Girvin, Barbara M. Terhal, and Liang Jiang, "Performance and structure of single-mode bosonic codes", Physical Review A 97 3, 032346 (2018).

[11] William A. Borders, Ahmed Z. Pervaiz, Shunsuke Fukami, Kerem Y. Camsari, Hideo Ohno, and Supriyo Datta, "Integer factorization using stochastic magnetic tunnel junctions", Nature 573 7774, 390 (2019).

[12] Pierre-Luc Dallaire-Demers and Nathan Killoran, "Quantum generative adversarial networks", Physical Review A 98 1, 012324 (2018).

[13] Panagiotis Kl. Barkoutsos, Jerome F. Gonthier, Igor Sokolov, Nikolaj Moll, Gian Salis, Andreas Fuhrer, Marc Ganzhorn, Daniel J. Egger, Matthias Troyer, Antonio Mezzacapo, Stefan Filipp, and Ivano Tavernelli, "Quantum algorithms for electronic structure calculations: Particle-hole Hamiltonian and optimized wave-function expansions", Physical Review A 98 2, 022322 (2018).

[14] Andrew D. King, Juan Carrasquilla, Jack Raymond, Isil Ozfidan, Evgeny Andriyash, Andrew Berkley, Mauricio Reis, Trevor Lanting, Richard Harris, Fabio Altomare, Kelly Boothby, Paul I. Bunyk, Colin Enderud, Alexandre Fréchette, Emile Hoskinson, Nicolas Ladizinsky, Travis Oh, Gabriel Poulin-Lamarre, Christopher Rich, Yuki Sato, Anatoly Yu. Smirnov, Loren J. Swenson, Mark H. Volkmann, Jed Whittaker, Jason Yao, Eric Ladizinsky, Mark W. Johnson, Jeremy Hilton, and Mohammad H. Amin, "Observation of topological phenomena in a programmable lattice of 1,800 qubits", Nature 560 7719, 456 (2018).

[15] Edward Grant, Marcello Benedetti, Shuxiang Cao, Andrew Hallam, Joshua Lockhart, Vid Stojevic, Andrew G. Green, and Simone Severini, "Hierarchical quantum classifiers", npj Quantum Information 4, 65 (2018).

[16] G. G. Guerreschi and A. Y. Matsuura, "QAOA for Max-Cut requires hundreds of qubits for quantum speed-up", Scientific Reports 9, 6903 (2019).

[17] Tameem Albash and Daniel A. Lidar, "Demonstration of a Scaling Advantage for a Quantum Annealer over Simulated Annealing", Physical Review X 8 3, 031016 (2018).

[18] Natalie Klco and Martin J. Savage, "Digitization of scalar fields for quantum computing", Physical Review A 99 5, 052335 (2019).

[19] Yanzhu Chen, Maziar Farahzad, Shinjae Yoo, and Tzu-Chieh Wei, "Detector tomography on IBM quantum computers and mitigation of an imperfect measurement", Physical Review A 100 5, 052315 (2019).

[20] Zhang Jiang, Kevin J. Sung, Kostyantyn Kechedzhi, Vadim N. Smelyanskiy, and Sergio Boixo, "Quantum Algorithms to Simulate Many-Body Physics of Correlated Fermions", Physical Review Applied 9 4, 044036 (2018).

[21] N. M. Linke, S. Johri, C. Figgatt, K. A. Landsman, A. Y. Matsuura, and C. Monroe, "Measuring the Rényi entropy of a two-site Fermi-Hubbard model on a trapped ion quantum computer", Physical Review A 98 5, 052334 (2018).

[22] Jianxin Chen, Fang Zhang, Cupjin Huang, Michael Newman, and Yaoyun Shi, "Classical Simulation of Intermediate-Size Quantum Circuits", arXiv:1805.01450, (2018).

[23] Francesco A. Evangelista, Garnet Kin-Lic Chan, and Gustavo E. Scuseria, "Exact parameterization of fermionic wave functions via unitary coupled cluster theory", Journal of Chemical Physics 151 24, 244112 (2019).

[24] A. Elben, B. Vermersch, C. F. Roos, and P. Zoller, "Statistical correlations between locally randomized measurements: A toolbox for probing entanglement in many-body quantum states", Physical Review A 99 5, 052323 (2019).

[25] Simon Milz, M. S. Kim, Felix A. Pollock, and Kavan Modi, "Completely Positive Divisibility Does Not Mean Markovianity", Physical Review Letters 123 4, 040401 (2019).

[26] Yuxuan Du, Min-Hsiu Hsieh, Tongliang Liu, and Dacheng Tao, "The Expressive Power of Parameterized Quantum Circuits", arXiv:1810.11922, (2018).

[27] Thomas E. O'Brien, Brian Tarasinski, and Barbara M. Terhal, "Quantum phase estimation of multiple eigenvalues for small-scale (noisy) experiments", New Journal of Physics 21 2, 023022 (2019).

[28] Sam McArdle, Suguru Endo, Alan Aspuru-Guzik, Simon Benjamin, and Xiao Yuan, "Quantum computational chemistry", arXiv:1808.10402, (2018).

[29] J. Preskill, "Simulating quantum field theory with a quantum computer", The 36th Annual International Symposium on Lattice Field Theory. 22-28 July 24 (2018).

[30] Guillaume Verdon, Jason Pye, and Michael Broughton, "A Universal Training Algorithm for Quantum Deep Learning", arXiv:1806.09729, (2018).

[31] Kentaro Heya, Yasunari Suzuki, Yasunobu Nakamura, and Keisuke Fujii, "Variational Quantum Gate Optimization", arXiv:1810.12745, (2018).

[32] Jinfeng Zeng, Yufeng Wu, Jin-Guo Liu, Lei Wang, and Jiangping Hu, "Learning and inference on generative adversarial quantum circuits", Physical Review A 99 5, 052306 (2019).

[33] Daniel C. Hackett, Kiel Howe, Ciaran Hughes, William Jay, Ethan T. Neil, and James N. Simone, "Digitizing gauge fields: Lattice Monte Carlo results for future quantum computers", Physical Review A 99 6, 062341 (2019).

[34] Kübra Yeter-Aydeniz, Eugene F. Dumitrescu, Alex J. McCaskey, Ryan S. Bennink, Raphael C. Pooser, and George Siopsis, "Scalar quantum field theories as a benchmark for near-term quantum computers", Physical Review A 99 3, 032306 (2019).

[35] Xun Gao and Luming Duan, "Efficient classical simulation of noisy quantum computation", arXiv:1810.03176, (2018).

[36] Kazuki Ikeda, Yuma Nakamura, and Travis S. Humble, "Application of Quantum Annealing to Nurse Scheduling Problem", Scientific Reports 9, 12837 (2019).

[37] Mark Fingerhuth, Tomáš Babej, and Christopher Ing, "A quantum alternating operator ansatz with hard and soft constraints for lattice protein folding", arXiv:1810.13411, (2018).

[38] Eric R. Anschuetz, Jonathan P. Olson, Alán Aspuru-Guzik, and Yudong Cao, "Variational Quantum Factoring", arXiv:1808.08927, (2018).

[39] Yudong Cao, Jonathan Romero, Jonathan P. Olson, Matthias Degroote, Peter D. Johnson, Mária Kieferová, Ian D. Kivlichan, Tim Menke, Borja Peropadre, Nicolas P. D. Sawaya, Sukin Sim, Libor Veis, and Alán Aspuru-Guzik, "Quantum Chemistry in the Age of Quantum Computing", arXiv:1812.09976, (2018).

[40] Javier Gil Vidal and Dirk Oliver Theis, "Calculus on parameterized quantum circuits", arXiv:1812.06323, (2018).

[41] A. Garcia-Saez and J. I. Latorre, "Addressing hard classical problems with Adiabatically Assisted Variational Quantum Eigensolvers", arXiv:1806.02287, (2018).

[42] Maria Schuld and Nathan Killoran, "Quantum machine learning in feature Hilbert spaces", arXiv:1803.07128, (2018).

[43] Marcello Benedetti, Edward Grant, Leonard Wossnig, and Simone Severini, "Adversarial quantum circuit learning for pure state approximation", New Journal of Physics 21 4, 043023 (2019).

[44] Brian Swingle and Nicole Yunger Halpern, "Resilience of scrambling measurements", Physical Review A 97 6, 062113 (2018).

[45] Michael Brooks, "Beyond quantum supremacy: the hunt for useful quantum computers", Nature 574 7776, 19 (2019).

[46] Felix Kleißler, Andrii Lazariev, and Silvia Arroyo-Camejo, "Universal, high-fidelity quantum gates based on superadiabatic, geometric phases on a solid-state spin-qubit at room temperature", npj Quantum Information 4, 49 (2018).

[47] Youngkyu Sung, Félix Beaudoin, Leigh M. Norris, Fei Yan, David K. Kim, Jack Y. Qiu, Uwe von Lüpke, Jonilyn L. Yoder, Terry P. Orlando, Simon Gustavsson, Lorenza Viola, and William D. Oliver, "Non-Gaussian noise spectroscopy with a superconducting qubit sensor", Nature Communications 10, 3715 (2019).

[48] Zhong-Xiao Man, Yun-Jie Xia, and Rosario Lo Franco, "Temperature effects on quantum non-Markovianity via collision models", Physical Review A 97 6, 062104 (2018).

[49] Sebastien Piat, Nairi Usher, Simone Severini, Mark Herbster, Tommaso Mansi, and Peter Mountney, "Image classification with quantum pre-training and auto-encoders", International Journal of Quantum Information 16 8, 1840009-332 (2018).

[50] Juan Miguel Arrazola, Thomas R. Bromley, and Patrick Rebentrost, "Quantum approximate optimization with Gaussian boson sampling", Physical Review A 98 1, 012322 (2018).

[51] Swamit S. Tannu and Moinuddin K. Qureshi, "A Case for Variability-Aware Policies for NISQ-Era Quantum Computers", arXiv:1805.10224, (2018).

[52] Gushu Li, Yufei Ding, and Yuan Xie, "Tackling the Qubit Mapping Problem for NISQ-Era Quantum Devices", arXiv:1809.02573, (2018).

[53] Bálint Joó, Chulwoo Jung, Norman H. Christ, William Detmold, Robert G. Edwards, Martin Savage, and Phiala Shanahan, "Status and future perspectives for lattice gauge theory calculations to the exascale and beyond", European Physical Journal A 55 11, 199 (2019).

[54] C. M. Wilson, J. S. Otterbach, N. Tezak, R. S. Smith, A. M. Polloreno, Peter J. Karalekas, S. Heidel, M. Sohaib Alam, G. E. Crooks, and M. P. da Silva, "Quantum Kitchen Sinks: An algorithm for machine learning on near-term quantum computers", arXiv:1806.08321, (2018).

[55] Ramis Movassagh, "Efficient unitary paths and quantum computational supremacy: A proof of average-case hardness of Random Circuit Sampling", arXiv:1810.04681, (2018).

[56] Yiğit Subaşı, Lukasz Cincio, and Patrick J. Coles, "Entanglement spectroscopy with a depth-two quantum circuit", Journal of Physics A Mathematical General 52 4, 044001 (2019).

[57] Ali Mortezapour and Rosario Lo Franco, "Protecting quantum resources via frequency modulation of qubits in leaky cavities", Scientific Reports 8, 14304 (2018).

[58] Andrew Arrasmith, Lukasz Cincio, Andrew T. Sornborger, Wojciech H. Zurek, and Patrick J. Coles, "Variational consistent histories as a hybrid algorithm for quantum foundations", Nature Communications 10, 3438 (2019).

[59] Kostyantyn Kechedzhi, Vadim Smelyanskiy, Jarrod R. McClean, Vasil S. Denchev, Masoud Mohseni, Sergei Isakov, Sergio Boixo, Boris Altshuler, and Hartmut Neven, "Efficient population transfer via non-ergodic extended states in quantum spin glass", arXiv:1807.04792, (2018).

[60] Patrick Rall, Daniel Liang, Jeremy Cook, and William Kretschmer, "Simulation of qubit quantum circuits via Pauli propagation", Physical Review A 99 6, 062337 (2019).

[61] Lewis Grozinger, Martyn Amos, Thomas E. Gorochowski, Pablo Carbonell, Diego A. Oyarzún, Ruud Stoof, Harold Fellermann, Paolo Zuliani, Huseyin Tas, and Angel Goñi-Moreno, "Pathways to cellular supremacy in biocomputing", Nature Communications 10, 5250 (2019).

[62] Zhenyu Cai and Simon C. Benjamin, "Constructing Smaller Pauli Twirling Sets for Arbitrary Error Channels", Scientific Reports 9, 11281 (2019).

[63] Guglielmo Mazzola, Pauline J. Ollitrault, Panagiotis Kl. Barkoutsos, and Ivano Tavernelli, "Nonunitary Operations for Ground-State Calculations in Near-Term Quantum Computers", Physical Review Letters 123 13, 130501 (2019).

[64] Laszlo Gyongyosi and Sandor Imre, "Dense Quantum Measurement Theory", Scientific Reports 9, 6755 (2019).

[65] Jin-Guo Liu and Lei Wang, "Differentiable Learning of Quantum Circuit Born Machine", arXiv:1804.04168, (2018).

[66] Wolfgang Lechner, "Quantum Approximate Optimization with Parallelizable Gates", arXiv:1802.01157, (2018).

[67] Wen Wei Ho, Cheryne Jonay, and Timothy H. Hsieh, "Ultrafast variational simulation of nontrivial quantum states with long-range interactions", Physical Review A 99 5, 052332 (2019).

[68] Aniruddha Bapat and Stephen Jordan, "Bang-bang control as a design principle for classical and quantum optimization algorithms", arXiv:1812.02746, (2018).

[69] Pablo Andrés-Martínez and Chris Heunen, "Automated distribution of quantum circuits via hypergraph partitioning", Physical Review A 100 3, 032308 (2019).

[70] Alexander McCaskey, Eugene Dumitrescu, Mengsu Chen, Dmitry Lyakh, and Travis Humble, "Validating quantum-classical programming models with tensor network simulations", PLoS ONE 13 12, e0206704 (2018).

[71] Taewan Kim and Byung-Soo Choi, "Efficient decomposition methods for controlled-R<SUB>n</SUB> using a single ancillary qubit", Scientific Reports 8, 5445 (2018).

[72] Syed Junaid Nawaz, Shree Krishna Sharma, Shurjeel Wyne, Mohammad N. Patwary, and Md. Asaduzzaman, "Quantum Machine Learning for 6G Communication Networks: State-of-the-Art and Vision for the Future", IEEE Access 7, 46317 (2019).

[73] Chungwei Lin, Yebin Wang, Grigory Kolesov, and Uroš Kalabić, "Application of Pontryagin's minimum principle to Grover's quantum search problem", Physical Review A 100 2, 022327 (2019).

[74] Cupjin Huang, Michael Newman, and Mario Szegedy, "Explicit lower bounds on strong quantum simulation", arXiv:1804.10368, (2018).

[75] Mingxia Huo and Ying Li, "Self-consistent tomography of temporally correlated errors", arXiv:1811.02734, (2018).

[76] James Stokes and John Terilla, "Probabilistic Modeling with Matrix Product States", Entropy 21 12, 1236 (2019).

[77] Andreas Hartmann and Wolfgang Lechner, "Quantum phase transition with inhomogeneous driving in the Lechner-Hauke-Zoller model", Physical Review A 100 3, 032110 (2019).

[78] Hai-Jin Ding and Re-Bing Wu, "Robust quantum control against clock noises in multiqubit systems", Physical Review A 100 2, 022302 (2019).

[79] Eric R. Anschuetz and Cristian Zanoci, "Near-term quantum-classical associative adversarial networks", Physical Review A 100 5, 052327 (2019).

[80] Chih-Chieh Chen, Shiue-Yuan Shiau, Ming-Feng Wu, and Yuh-Renn Wu, "Hybrid classical-quantum linear solver using Noisy Intermediate-Scale Quantum machines", Scientific Reports 9, 16251 (2019).

[81] Daniel C. Murphy and Kenneth R. Brown, "Controlling error orientation to improve quantum algorithm success rates", Physical Review A 99 3, 032318 (2019).

[82] Neal Solmeyer, Norbert M. Linke, Caroline Figgatt, Kevin A. Landsman, Radhakrishnan Balu, George Siopsis, and C. Monroe, "Demonstration of a Bayesian quantum game on an ion-trap quantum computer", Quantum Science and Technology 3 4, 045002 (2018).

[83] Kyle Cormier, Riccardo Di Sipio, and Peter Wittek, "Unfolding measurement distributions via quantum annealing", Journal of High Energy Physics 2019 11, 128 (2019).

[84] Keisuke Fujii, "Quantum speedup in stoquastic adiabatic quantum computation", arXiv:1803.09954, (2018).

[85] Cristian S. Calude and Elena Calude, "The Road to Quantum Computational Supremacy", arXiv:1712.01356, (2017).

[86] Dorit Aharonov and Leo Zhou, "Hamiltonian sparsification and gap-simulations", arXiv:1804.11084, (2018).

[87] Zhang Jiang, Kevin J. Sung, Kostyantyn Kechedzhi, Vadim N. Smelyanskiy, and Sergio Boixo, "Quantum algorithms to simulate many-body physics of correlated fermions", arXiv:1711.05395, (2017).

[88] Juan Carrasquilla, Giacomo Torlai, Roger G. Melko, and Leandro Aolita, "Reconstructing quantum states with generative models", arXiv:1810.10584, (2018).

[89] Tony J. G. Apollaro, Guilherme M. A. Almeida, Salvatore Lorenzo, Alessandro Ferraro, and Simone Paganelli, "Spin chains for two-qubit teleportation", Physical Review A 100 5, 052308 (2019).

[90] Ruslan Shaydulin, Hayato Ushijima-Mwesigwa, Ilya Safro, Susan Mniszewski, and Yuri Alexeev, "Community Detection Across Emerging Quantum Architectures", arXiv:1810.07765, (2018).

[91] Ciarán Ryan-Anderson, "Quantum Algorithms, Architecture, and Error Correction", arXiv:1812.04735, (2018).

[92] X. Fu, L. Riesebos, M. A. Rol, J. van Straten, J. van Someren, N. Khammassi, I. Ashraf, R. F. L. Vermeulen, V. Newsum, K. K. L. Loh, J. C. de Sterke, W. J. Vlothuizen, R. N. Schouten, C. G. Almudever, L. DiCarlo, and K. Bertels, "eQASM: An Executable Quantum Instruction Set Architecture", arXiv:1808.02449, (2018).

[93] Sergey Novikov, Robert Hinkey, Steven Disseler, James I. Basham, Tameem Albash, Andrew Risinger, David Ferguson, Daniel A. Lidar, and Kenneth M. Zick, "Exploring More-Coherent Quantum Annealing", arXiv:1809.04485, (2018).

[94] Clemens Dlaska, Lukas M. Sieberer, and Wolfgang Lechner, "Designing ground states of Hopfield networks for quantum state preparation", Physical Review A 99 3, 032342 (2019).

[95] Alwin Zulehner and Robert Wille, "Compiling SU(4) Quantum Circuits to IBM QX Architectures", arXiv:1808.05661, (2018).

[96] Stefan Krastanov, Victor V. Albert, and Liang Jiang, "Optimized Entanglement Purification", arXiv:1712.09762, (2017).

[97] Karthik Chinni, Pablo Poggi, and Ivan Deutsch, "Reliable Analog Quantum Simulation and Quantum Complexity", APS March Meeting Abstracts 2019, C42.011 (2019).

[98] Suguru Endo, Qi Zhao, Ying Li, Simon Benjamin, and Xiao Yuan, "Mitigating algorithmic errors in Hamiltonian simulation", arXiv:1808.03623, (2018).

[99] Marina Radulaski, Jingyuan Linda Zhang, Yan-Kai Tzeng, Konstantinos G. Lagoudakis, Hitoshi Ishiwata, Constantin Dory, Kevin A. Fischer, Yousif A. Kelaita, Shuo Sun, Peter C. Maurer, Kassem Alassaad, Gabriel Ferro, Zhi-Xun Shen, Nicholas Melosh, Steven Chu, and Jelena Vučković, "Nanodiamond integration with photonic devices", arXiv:1610.03183, (2016).

[100] Ning Bao and Junyu Liu, "Quantum algorithms for conformal bootstrap", Nuclear Physics B 946, 114702 (2019).

[101] Yosep Kim, Kang-Hee Hong, Joonsuk Huh, and Yoon-Ho Kim, "Experimental linear optical computing of the matrix permanent", Physical Review A 99 5, 052308 (2019).

[102] R. C. Wiersema and H. J. Kappen, "Implementing perceptron models with qubits", Physical Review A 100 2, 020301 (2019).

[103] Zhi-Yuan Li, Hai-Feng Yu, Xin-Sheng Tan, Shi-Ping Zhao, and Yang Yu, "Manipulation of superconducting qubit with direct digital synthesis", Chinese Physics B 28 9, 098505 (2019).

[104] Ruslan Shaydulin, Hayato Ushijima-Mwesigwa, Ilya Safro, Susan Mniszewski, and Yuri Alexeev, "Network Community Detection On Small Quantum Computers", arXiv:1810.12484, (2018).

[105] Mark B. Ritter, "Near-term Quantum Algorithms for Quantum Many-body Systems", Journal of Physics Conference Series 1290 1, 012003 (2019).

[106] Shihao Zhang, Pengyun Li, Bo Wang, Qiang Zeng, and Xiangdong Zhang, "Implementation of quantum permutation algorithm with classical light", Journal of Physics Communications 3 1, 015008 (2019).

[107] Eyal Bairey, Itai Arad, and Netanel H. Lindner, "Learning a local Hamiltonian from local measurements", arXiv:1807.04564, (2018).

[108] David P. Franke, James S. Clarke, Lieven M. K. Vandersypen, and Menno Veldhorst, "Rent's rule and extensibility in quantum computing", arXiv:1806.02145, (2018).

[109] Yosi Atia, Yonathan Oren, and Nadav Katz, "Robust Diabatic Grover Search by Landau-Zener-Stückelberg Oscillations", Entropy 21 10, 937 (2019).

[110] Jacob D. Biamonte, Pavel Dorozhkin, and Igor Zacharov, "Keep quantum computing global and open", Nature 573 7773, 190 (2019).

[111] V. O. Shkolnikov and Guido Burkard, "Effective Hamiltonian theory of the geometric evolution of quantum systems", arXiv:1810.00193, (2018).

[112] Yuxuan Du, Tongliang Liu, and Dacheng Tao, "Bayesian Quantum Circuit", arXiv:1805.11089, (2018).

[113] Koen Groenland and Kareljan Schoutens, "Quantum gates by resonantly driving many-body eigenstates, with a focus on Polychronakos’ model", Journal of Statistical Mechanics: Theory and Experiment 7 7, 073103 (2019).

[114] Mohammad H. Ansari, "Exact quantization of superconducting circuits", arXiv:1807.00792, (2018).

[115] Xi Chen, Bin Cheng, Zhaokai Li, Xinfang Nie, Nengkun Yu, Man-Hong Yung, and Xinhua Peng, "Experimental Cryptographic Verification for Near-Term Quantum Cloud Computing", arXiv:1808.07375, (2018).

[116] Subhayan Sahu and Shasanka M. Roy, "Maximal entanglement and state transfer using Arthurs–Kelly type interaction for qubits", European Physical Journal D 72 12, 211 (2018).

[117] S. V. Remizov, A. A. Zhukov, W. V. Pogosov, and Yu E. Lozovik, "Radiation trapping effect versus superradiance in quantum simulation of light-matter interaction", Laser Physics Letters 16 6, 065205 (2019).

[118] Xavier Waintal, "What determines the ultimate precision of a quantum computer?", arXiv:1702.07688, (2017).

[119] Patrick Rall, "Simulating Quantum Circuits by Shuffling Paulis", arXiv:1804.05404, (2018).

[120] Yongshan Ding, Adam Holmes, Ali Javadi-Abhari, Diana Franklin, Margaret Martonosi, and Frederic T. Chong, "Magic-State Functional Units: Mapping and Scheduling Multi-Level Distillation Circuits for Fault-Tolerant Quantum Architectures", arXiv:1809.01302, (2018).

[121] Shusen Liu, Yinan Li, and Runyao Duan, "Distinguishing Unitary Gates on the IBM Quantum Processor", arXiv:1807.00429, (2018).

[122] V. E. Zobov and M. M. Kucherov, "Exponential Bound for the Heating Rate of Periodically Driven Spin Systems", Soviet Journal of Experimental and Theoretical Physics 128 4, 641 (2019).

[123] Damian S. Steiger, Thomas Häner, and Matthias Troyer, "Advantages of a modular high-level quantum programming framework", arXiv:1806.01861, (2018).

[124] Stefano Gandolfi, "Cloud Quantum Computing Tackles Simple Nucleus", Physics Online Journal 11, 51 (2018).

[125] Johannes S. Otterbach, "Optimizing Variational Quantum Circuits using Evolution Strategies", arXiv:1806.04344, (2018).

[126] Marcello Benedetti, Erika Lloyd, Stefan Sack, and Mattia Fiorentini, "Parameterized quantum circuits as machine learning models", Quantum Science and Technology 4 4, 043001 (2019).

[127] Sam McArdle, Tyson Jones, Suguru Endo, Ying Li, Simon C. Benjamin, and Xiao Yuan, "Variational ansatz-based quantum simulation of imaginary time evolution", npj Quantum Information 5, 75 (2019).

[128] Adam Smith, M. S. Kim, Frank Pollmann, and Johannes Knolle, "Simulating quantum many-body dynamics on a current digital quantum computer", npj Quantum Information 5, 106 (2019).

[129] Ken M. Nakanishi, Kosuke Mitarai, and Keisuke Fujii, "Subspace-search variational quantum eigensolver for excited states", Physical Review Research 1 3, 033062 (2019).

[130] Guillaume Verdon, Michael Broughton, Jarrod R. McClean, Kevin J. Sung, Ryan Babbush, Zhang Jiang, Hartmut Neven, and Masoud Mohseni, "Learning to learn with quantum neural networks via classical neural networks", arXiv:1907.05415, (2019).

[131] Oscar Higgott, Daochen Wang, and Stephen Brierley, "Variational Quantum Computation of Excited States", Quantum 3, 156 (2019).

[132] Marcello Benedetti, Delfina Garcia-Pintos, Oscar Perdomo, Vicente Leyton-Ortega, Yunseong Nam, and Alejandro Perdomo-Ortiz, "A generative modeling approach for benchmarking and training shallow quantum circuits", npj Quantum Information 5, 45 (2019).

[133] Sumeet Khatri, Ryan LaRose, Alexander Poremba, Lukasz Cincio, Andrew T. Sornborger, and Patrick J. Coles, "Quantum-assisted quantum compiling", Quantum 3, 140 (2019).

[134] Sergey Bravyi, Dan Browne, Padraic Calpin, Earl Campbell, David Gosset, and Mark Howard, "Simulation of quantum circuits by low-rank stabilizer decompositions", Quantum 3, 181 (2019).

[135] D. Zhu, N. M. Linke, M. Benedetti, K. A. Landsman, N. H. Nguyen, C. H. Alderete, A. Perdomo-Ortiz, N. Korda, A. Garfoot, C. Brecque, L. Egan, O. Perdomo, and C. Monroe, "Training of quantum circuits on a hybrid quantum computer", Science Advances 5 10, eaaw9918 (2019).

[136] Kunal Sharma, Sumeet Khatri, M. Cerezo, and Patrick J. Coles, "Noise resilience of variational quantum compiling", New Journal of Physics 22 4, 043006 (2020).

[137] Ling Hu, Shu-Hao Wu, Weizhou Cai, Yuwei Ma, Xianghao Mu, Yuan Xu, Haiyan Wang, Yipu Song, Dong-Ling Deng, Chang-Ling Zou, and Luyan Sun, "Quantum generative adversarial learning in a superconducting quantum circuit", Science Advances 5 1, eaav2761 (2019).

[138] Nathan Killoran, Josh Izaac, Nicolás Quesada, Ville Bergholm, Matthew Amy, and Christian Weedbrook, "Strawberry Fields: A Software Platform for Photonic Quantum Computing", Quantum 3, 129 (2019).

[139] Gavin E. Crooks, "Gradients of parameterized quantum gates using the parameter-shift rule and gate decomposition", arXiv:1905.13311, (2019).

[140] Beni Yoshida and Norman Y. Yao, "Disentangling Scrambling and Decoherence via Quantum Teleportation", Physical Review X 9 1, 011006 (2019).

[141] V. Kaushal, B. Lekitsch, A. Stahl, J. Hilder, D. Pijn, C. Schmiegelow, A. Bermudez, M. Müller, F. Schmidt-Kaler, and U. Poschinger, "Shuttling-based trapped-ion quantum information processing", AVS Quantum Science 2 1, 014101 (2020).

[142] Bryan O'Gorman, William J. Huggins, Eleanor G. Rieffel, and K. Birgitta Whaley, "Generalized swap networks for near-term quantum computing", arXiv:1905.05118, (2019).

[143] Gregory R. Steinbrecher, Jonathan P. Olson, Dirk Englund, and Jacques Carolan, "Quantum optical neural networks", npj Quantum Information 5, 60 (2019).

[144] Olivier Pfister, "Continuous-variable quantum computing in the quantum optical frequency comb", Journal of Physics B Atomic Molecular Physics 53 1, 012001 (2020).

[145] Thomas E. O'Brien, Bruno Senjean, Ramiro Sagastizabal, Xavier Bonet-Monroig, Alicja Dutkiewicz, Francesco Buda, Leonardo DiCarlo, and Lucas Visscher, "Calculating energy derivatives for quantum chemistry on a quantum computer", npj Quantum Information 5, 113 (2019).

[146] Benjamin Villalonga, Sergio Boixo, Bron Nelson, Christopher Henze, Eleanor Rieffel, Rupak Biswas, and Salvatore Mandrà, "A flexible high-performance simulator for verifying and benchmarking quantum circuits implemented on real hardware", npj Quantum Information 5, 86 (2019).

[147] Shuaining Zhang, Yao Lu, Kuan Zhang, Wentao Chen, Ying Li, Jing-Ning Zhang, and Kihwan Kim, "Error-mitigated quantum gates exceeding physical fidelities in a trapped-ion system", Nature Communications 11, 587 (2020).

[148] Ramis Movassagh, "Quantum supremacy and random circuits", arXiv:1909.06210, (2019).

[149] Aram Harrow and John Napp, "Low-depth gradient measurements can improve convergence in variational hybrid quantum-classical algorithms", arXiv:1901.05374, (2019).

[150] Mark Hodson, Brendan Ruck, Hugh Ong, David Garvin, and Stefan Dulman, "Portfolio rebalancing experiments using the Quantum Alternating Operator Ansatz", arXiv:1911.05296, (2019).

[151] Jonathan Romero and Alan Aspuru-Guzik, "Variational quantum generators: Generative adversarial quantum machine learning for continuous distributions", arXiv:1901.00848, (2019).

[152] Corentin Bertrand, Serge Florens, Olivier Parcollet, and Xavier Waintal, "Reconstructing Nonequilibrium Regimes of Quantum Many-Body Systems from the Analytical Structure of Perturbative Expansions", Physical Review X 9 4, 041008 (2019).

[153] Marek Pechal, Patricio Arrangoiz-Arriola, and Amir H. Safavi-Naeini, "Superconducting circuit quantum computing with nanomechanical resonators as storage", Quantum Science and Technology 4 1, 015006 (2019).

[154] Agnes Valenti, Evert van Nieuwenburg, Sebastian Huber, and Eliska Greplova, "Hamiltonian learning for quantum error correction", Physical Review Research 1 3, 033092 (2019).

[155] Danijela Marković and Julie Grollier, "Quantum neuromorphic computing", Applied Physics Letters 117 15, 150501 (2020).

[156] Wolfgang Niedenzu, Marcus Huber, and Erez Boukobza, "Concepts of work in autonomous quantum heat engines", Quantum 3, 195 (2019).

[157] Eyal Bairey, Chu Guo, Dario Poletti, Netanel H. Lindner, and Itai Arad, "Learning the dynamics of open quantum systems from their steady states", New Journal of Physics 22 3, 032001 (2020).

[158] Zhang Jiang, Jarrod McClean, Ryan Babbush, and Hartmut Neven, "Majorana Loop Stabilizer Codes for Error Mitigation in Fermionic Quantum Simulations", Physical Review Applied 12 6, 064041 (2019).

[159] Matthew Otten and Stephen K. Gray, "Accounting for errors in quantum algorithms via individual error reduction", npj Quantum Information 5, 11 (2019).

[160] Samuel Yen-Chi Chen, Chao-Han Huck Yang, Jun Qi, Pin-Yu Chen, Xiaoli Ma, and Hsi-Sheng Goan, "Variational Quantum Circuits for Deep Reinforcement Learning", IEEE Access 8, 141007 (2020).

[161] Salonik Resch and Ulya R. Karpuzcu, "Quantum Computing: An Overview Across the System Stack", arXiv:1905.07240, (2019).

[162] Stefan Krastanov, Victor V. Albert, and Liang Jiang, "Optimized Entanglement Purification", Quantum 3, 123 (2019).

[163] Ian C. Cloët, Matthew R. Dietrich, John Arrington, Alexei Bazavov, Michael Bishof, Adam Freese, Alexey V. Gorshkov, Anna Grassellino, Kawtar Hafidi, Zubin Jacob, Michael McGuigan, Yannick Meurice, Zein-Eddine Meziani, Peter Mueller, Christine Muschik, James Osborn, Matthew Otten, Peter Petreczky, Tomas Polakovic, Alan Poon, Raphael Pooser, Alessandro Roggero, Mark Saffman, Brent VanDevender, Jiehang Zhang, and Erez Zohar, "Opportunities for Nuclear Physics & Quantum Information Science", arXiv:1903.05453, (2019).

[164] Nai-Hui Chia, András Gilyén, Tongyang Li, Han-Hsuan Lin, Ewin Tang, and Chunhao Wang, "Sampling-based sublinear low-rank matrix arithmetic framework for dequantizing quantum machine learning", arXiv:1910.06151, (2019).

[165] Daniel Claudino, Jerimiah Wright, Alexander J. McCaskey, and Travis S. Humble, "Benchmarking Adaptive Variational Quantum Eigensolvers", Frontiers in Chemistry 8, 1152 (2020).

[166] Deanna M. Abrams, Nicolas Didier, Blake R. Johnson, Marcus P. da Silva, and Colm A. Ryan, "Implementation of the XY interaction family with calibration of a single pulse", arXiv:1912.04424, (2019).

[167] Kosuke Mitarai, Tennin Yan, and Keisuke Fujii, "Generalization of the Output of a Variational Quantum Eigensolver by Parameter Interpolation with a Low-depth Ansatz", Physical Review Applied 11 4, 044087 (2019).

[168] Nathan Wiebe, "Key questions for the quantum machine learner to ask themselves", New Journal of Physics 22 9, 091001 (2020).

[169] Shin Nishio, Yulu Pan, Takahiko Satoh, Hideharu Amano, and Rodney Van Meter, "Extracting Success from IBM's 20-Qubit Machines Using Error-Aware Compilation", arXiv:1903.10963, (2019).

[170] Tameem Albash, Victor Martin-Mayor, and Itay Hen, "Analog errors in Ising machines", Quantum Science and Technology 4 2, 02LT03 (2019).

[171] Jiayin Chen and Hendra I. Nurdin, "Learning nonlinear input-output maps with dissipative quantum systems", Quantum Information Processing 18 7, 198 (2019).

[172] William M. Kirby and Peter J. Love, "Contextuality Test of the Nonclassicality of Variational Quantum Eigensolvers", Physical Review Letters 123 20, 200501 (2019).

[173] Hyeongrak Choi, Mihir Pant, Saikat Guha, and Dirk Englund, "Percolation-based architecture for cluster state creation using photon-mediated entanglement between atomic memories", npj Quantum Information 5, 104 (2019).

[174] Tariq M. Khan and Antonio Robles-Kelly, "Machine Learning: Quantum vs Classical", IEEE Access 8, 219275 (2020).

[175] Sumsam Ullah Khan, Ahsan Javed Awan, and Gemma Vall-Llosera, "K-Means Clustering on Noisy Intermediate Scale Quantum Computers", arXiv:1909.12183, (2019).

[176] Eric Bersin, Michael Walsh, Sara L. Mouradian, Matthew E. Trusheim, Tim Schröder, and Dirk Englund, "Individual control and readout of qubits in a sub-diffraction volume", npj Quantum Information 5, 38 (2019).

[177] Young-Hyun Oh, Hamed Mohammadbagherpoor, Patrick Dreher, Anand Singh, Xianqing Yu, and Andy J. Rindos, "Solving Multi-Coloring Combinatorial Optimization Problems Using Hybrid Quantum Algorithms", arXiv:1911.00595, (2019).

[178] Omar Shehab, Isaac H. Kim, Nhung H. Nguyen, Kevin Landsman, Cinthia H. Alderete, Daiwei Zhu, C. Monroe, and Norbert M. Linke, "Noise reduction using past causal cones in variational quantum algorithms", arXiv:1906.00476, (2019).

[179] Nai-Hui Chia, Tongyang Li, Han-Hsuan Lin, and Chunhao Wang, "Quantum-inspired sublinear algorithm for solving low-rank semidefinite programming", arXiv:1901.03254, (2019).

[180] Tongyang Li, Shouvanik Chakrabarti, and Xiaodi Wu, "Sublinear quantum algorithms for training linear and kernel-based classifiers", arXiv:1904.02276, (2019).

[181] Samuel A. Wilkinson and Michael J. Hartmann, "Superconducting quantum many-body circuits for quantum simulation and computing", Applied Physics Letters 116 23, 230501 (2020).

[182] David Amaro, Markus Müller, and Amit Kumar Pal, "Scalable characterization of localizable entanglement in noisy topological quantum codes", New Journal of Physics 22 5, 053038 (2020).

[183] Peter Svihra, Yingwen Zhang, Paul Hockett, Steven Ferrante, Benjamin Sussman, Duncan England, and Andrei Nomerotski, "Multivariate discrimination in quantum target detection", Applied Physics Letters 117 4, 044001 (2020).

[184] Shouvanik Chakrabarti, Yiming Huang, Tongyang Li, Soheil Feizi, and Xiaodi Wu, "Quantum Wasserstein Generative Adversarial Networks", arXiv:1911.00111, (2019).

[185] Kanav Setia, Richard Chen, Julia E. Rice, Antonio Mezzacapo, Marco Pistoia, and James Whitfield, "Reducing qubit requirements for quantum simulation using molecular point group symmetries", arXiv:1910.14644, (2019).

[186] H. J. Kappen, "Learning quantum models from quantum or classical data", Journal of Physics A Mathematical General 53 21, 214001 (2020).

[187] Luca Innocenti, Leonardo Banchi, Alessandro Ferraro, Sougato Bose, and Mauro Paternostro, "Supervised learning of time-independent Hamiltonians for gate design", New Journal of Physics 22 6, 065001 (2020).

[188] Valentin Torggler, Philipp Aumann, Helmut Ritsch, and Wolfgang Lechner, "A Quantum N-Queens Solver", Quantum 3, 149 (2019).

[189] Narayanan Rengaswamy, Robert Calderbank, Swanand Kadhe, and Henry D. Pfister, "Logical Clifford Synthesis for Stabilizer Codes", arXiv:1907.00310, (2019).

[190] Sam Morley-Short, Mercedes Gimeno-Segovia, Terry Rudolph, and Hugo Cable, "Loss-tolerant teleportation on large stabilizer states", Quantum Science and Technology 4 2, 025014 (2019).

[191] Prakash Murali, Norbert Matthias Linke, Margaret Martonosi, Ali Javadi Abhari, Nhung Hong Nguyen, and Cinthia Huerta Alderete, "Full-Stack, Real-System Quantum Computer Studies: Architectural Comparisons and Design Insights", arXiv:1905.11349, (2019).

[192] Frederic Bapst, Wahid Bhimji, Paolo Calafiura, Heather Gray, Wim Lavrijsen, and Lucy Linder, "A pattern recognition algorithm for quantum annealers", arXiv:1902.08324, (2019).

[193] Anne Matsuura, Sonika Johri, and Justin Hogaboam, "A systems perspective of quantum computing", Physics Today 72 3, 40 (2019).

[194] Hiroaki Wakamura and Tatsuhiko Koike, "A general formulation of time-optimal quantum control and optimality of singular protocols", New Journal of Physics 22 7, 073010 (2020).

[195] M. V. Bastrakova, N. V. Klenov, and A. M. Satanin, "Tomography of Qubit States and Implementation of Quantum Algorithms by Unipolar Pulses", Soviet Journal of Experimental and Theoretical Physics 131 4, 507 (2020).

[196] Daniel Koch, Brett Martin, Saahil Patel, Laura Wessing, and Paul M. Alsing, "Demonstrating NISQ era challenges in algorithm design on IBM's 20 qubit quantum computer", AIP Advances 10 9, 095101 (2020).

[197] Abdullah Ash Saki, Mahabubul Alam, and Swaroop Ghosh, "Study of Decoherence in Quantum Computers: A Circuit-Design Perspective", arXiv:1904.04323, (2019).

[198] Peyman Givi, Andrew J. Daley, Dimitri Mavriplis, and Mujeeb Malik, "Quantum Speedup for Aeroscience and Engineering", AIAA Journal 58 8, 3715 (2020).

[199] Yuxuan Du, Min-Hsiu Hsieh, and Dacheng Tao, "Efficient Online Quantum Generative Adversarial Learning Algorithms with Applications", arXiv:1904.09602, (2019).

[200] Hamed Mohammadbagherpoor, Young-Hyun Oh, Patrick Dreher, Anand Singh, Xianqing Yu, and Andy J. Rindos, "An Improved Implementation Approach for Quantum Phase Estimation on Quantum Computers", arXiv:1910.11696, (2019).

[201] Rongxin Xia and Sabre Kais, "Hybrid Quantum-Classical Neural Network for Calculating Ground State Energies of Molecules", Entropy 22 8, 828 (2020).

[202] Seth Lloyd and Reevu Maity, "Efficient implementation of unitary transformations", arXiv:1901.03431, (2019).

[203] Siddhartha Das, "Bipartite Quantum Interactions: Entangling and Information Processing Abilities", arXiv:1901.05895, (2019).

[204] P. A. M. Casares and M. A. Martin-Delgado, "A quantum interior-point predictor-corrector algorithm for linear programming", Journal of Physics A Mathematical General 53 44, 445305 (2020).

[205] Ruslan Shaydulin, Ilya Safro, and Jeffrey Larson, "Multistart Methods for Quantum Approximate Optimization", arXiv:1905.08768, (2019).

[206] V. S. Shchesnovich, "On the classical complexity of sampling from quantum interference of indistinguishable bosons", International Journal of Quantum Information 18 7, 2050044-458 (2020).

[207] Changjun Kim, Kyungdeock Daniel Park, and June-Koo Rhee, "Quantum Error Mitigation With Artificial Neural Network", IEEE Access 8, 188853 (2020).

[208] Josu Etxezarreta Martinez, Patricio Fuentes, Pedro M. Crespo, and J. Garcia-Frias, "Approximating Decoherence Processes for the Design and Simulation of Quantum Error Correction Codes on Classical Computers", IEEE Access 8, 172623 (2020).

[209] K. Bertels, A. Sarkar, A. A. Mouedenne, T. Hubregtsen, A. Yadav, A. Krol, and I. Ashraf, "Quantum Computer Architecture: Towards Full-Stack Quantum Accelerators", arXiv:1903.09575, (2019).

[210] Teppei Suzuki and Michio Katouda, "Predicting toxicity by quantum machine learning", Journal of Physics Communications 4 12, 125012 (2020).

[211] Yimin Ge and Vedran Dunjko, "A hybrid algorithm framework for small quantum computers with application to finding Hamiltonian cycles", Journal of Mathematical Physics 61 1, 012201 (2020).

[212] Alexandru Paler, "SurfBraid: A concept tool for preparing and resource estimating quantum circuits protected by the surface code", arXiv:1902.02417, (2019).

[213] Yifeng Xiong, Daryus Chandra, Soon Xin Ng, and Lajos Hanzo, "Sampling Overhead Analysis of Quantum Error Mitigation: Uncoded vs. Coded Systems", IEEE Access 8, 228967 (2020).

[214] Travis L. Scholten, Yi-Kai Liu, Kevin Young, and Robin Blume-Kohout, "Classifying single-qubit noise using machine learning", arXiv:1908.11762, (2019).

[215] Sumeru Hazra, Kishor V. Salunkhe, Anirban Bhattacharjee, Gaurav Bothara, Suman Kundu, Tanay Roy, Meghan P. Patankar, and R. Vijay, "Engineering cross resonance interaction in multi-modal quantum circuits", Applied Physics Letters 116 15, 152601 (2020).

[216] Ohood Saud Althobaiti and Mischa Dohler, "Cybersecurity Challenges Associated With the Internet of Things in a Post-Quantum World", IEEE Access 8, 157356 (2020).

[217] Juan Ignacio Cirac, "Quantum computing and simulation", Nanophotonics 10 1, 351 (2020).

[218] Toshinari Itoko, Rudy Raymond, Takashi Imamichi, and Atsushi Matsuo, "Optimization of Quantum Circuit Mapping using Gate Transformation and Commutation", arXiv:1907.02686, (2019).

[219] Karol Horodecki and Maciej Stankiewicz, "Semi-device-independent quantum money", New Journal of Physics 22 2, 023007 (2020).

[220] Gushu Li, Yufei Ding, and Yuan Xie, "SANQ: A Simulation Framework for Architecting Noisy Intermediate-Scale Quantum Computing System", arXiv:1904.11590, (2019).

[221] Quntao Zhuang and Zheshen Zhang, "Physical-Layer Supervised Learning Assisted by an Entangled Sensor Network", Physical Review X 9 4, 041023 (2019).

[222] Hammam Qassim, Joel J. Wallman, and Joseph Emerson, "Clifford recompilation for faster classical simulation of quantum circuits", Quantum 3, 170 (2019).

[223] Pragati Gupta and C. M. Chandrashekar, "Digital quantum simulation framework for energy transport in an open quantum system", New Journal of Physics 22 12, 123027 (2020).

[224] V. E. Zobov and I. S. Pichkovskiy, "Sequences of selective rotation operators to engineer interactions for quantum annealing on three qutrits", International Conference on Micro- and Nano-Electronics 2018 11022, 110222V (2019).

[225] Yuta Matsuzawa and Yuki Kurashige, "A Jastrow-type decomposition in quantum chemistry for low-depth quantum circuits", arXiv:1909.12410, (2019).

[226] Naeimeh Mohseni, Marek Narozniak, Alexey N. Pyrkov, Valentin Ivannikov, Jonathan P. Dowling, and Tim Byrnes, "Error suppression in adiabatic quantum computing with qubit ensembles", arXiv:1909.09947, (2019).

[227] Haozhen Situ and Zhimin He, "Machine learning distributions of quantum ansatz with hierarchical structure", International Journal of Modern Physics B 34 20, 2050196-3746 (2020).

[228] Jelmer J. Renema, "Simulability of Imperfect Gaussian and Superposition Boson Sampling", arXiv:1911.10112, (2019).

[229] Prakash Murali, Ali Javadi-Abhari, Frederic T. Chong, and Margaret Martonosi, "Formal Constraint-based Compilation for Noisy Intermediate-Scale Quantum Systems", arXiv:1903.03276, (2019).

[230] Koen Groenland, Carla Groenland, and Reinier Kramer, "Stimulated Raman adiabatic passage-like protocols for amplitude transfer generalize to many bipartite graphs", Journal of Mathematical Physics 61 7, 072201 (2020).

[231] Alexey N. Pyrkov, Tim Byrnes, and Valentin V. Cherny, "Solitonic Fixed Point Attractors in the Complex Ginzburg-Landau Equation for Associative Memories", Symmetry 12 1, 24 (2019).

[232] Rosie Cane, Daryus Chandra, Soon Xin Ng, and Lajos Hanzo, "Mitigation of Decoherence-Induced Quantum-Bit Errors and Quantum-Gate Errors Using Steane's Code", IEEE Access 8, 83693 (2020).

[233] Rozhin Eskandarpour, Kumar Jang Bahadur Ghosh, Amin Khodaei, Aleksi Paaso, and Liuxi Zhang, "Quantum-Enhanced Grid of the Future: A Primer", IEEE Access 8, 188993 (2020).

[234] Shota Iizuka, Hidehiro Asai, Junichi Hattori, Koichi Fukuda, and Takahiro Mori, "Implementation of Coulomb blockade transport on a semiconductor device simulator and its application to tunnel-FET-based quantum dot devices", Japanese Journal of Applied Physics 59, SIIE02 (2020).

[235] Kelvin Loh, "Fairness evaluation during the conceptual design of heat grids with quantum annealers", arXiv:1910.09929, (2019).

[236] Asif Shakeel, "Neighborhood-history quantum walk", Physica Scripta 94 6, 065207 (2019).

[237] Ajinkya Borle and Josh McCarter, "On Post-Processing the Results of Quantum Optimizers", arXiv:1905.13107, (2019).

[238] Chang Liu, "Reverse Checking of Quantum Algorithm Execution", IEEE Access 8, 228702 (2020).

[239] Elena Egorova, Gleb Fedorov, Ivan Tsitsilin, Ilya Besedin, and Alexey Ustinov, "Analog Ising chain simulation with transmons", American Institute of Physics Conference Series 2241 1, 020013 (2020).

[240] Shota Iizuka, Hidehiro Asai, Kimihiko Kato, Junichi Hattori, Koichi Fukuda, and Takahiro Mori, "Mechanism of extraordinary gate-length dependence of quantum dot operation in isoelectronic-trap-assisted tunnel FETs", Applied Physics Express 13 11, 114001 (2020).

[241] Daniel Vert, Renaud Sirdey, and Stéphane Louise, "Revisiting old combinatorial beasts in the quantum age: quantum annealing versus maximal matching", arXiv:1910.05129, (2019).

[242] Ryan Bennink, Ajay Jasra, Kody J. H. Law, and Pavel Lougovski, "Estimation and uncertainty quantification for the output from quantum simulators", arXiv:1903.02964, (2019).

[243] Adam Holmes, Yongshan Ding, Ali Javadi-Abhari, Diana Franklin, Margaret Martonosi, and Frederic T. Chong, "Resource Optimized Quantum Architectures for Surface Code Implementations of Magic-State Distillation", arXiv:1904.11528, (2019).

[244] Ruslan Shaydulin, Caleb Thomas, and Paige Rodeghero, "Making Quantum Computing Open: Lessons from Open-Source Projects", arXiv:1902.00991, (2019).

[245] Seiichiro Tani and Yasuhiro Takahashi, "Development of Fast Quantum Algorithms", IEICE ESS Fundamentals Review 14 1, 15 (2020).

[246] Rosie Cane, Daryus Chandra, Soon Xin Ng, and Lajos Hanzo, "Gate-Error-Resilient Quantum Steane Codes", IEEE Access 8, 179346 (2020).

[247] F. Tacchino, A. Chiesa, M. D. LaHaye, I. Tavernelli, S. Carretta, and D. Gerace, "Digital Quantum Simulations of Spin Models on Hybrid Platform and Near-Term Quantum Processors", arXiv:1902.04971, (2019).

[248] Anurag Mishra and Alireza Shabani, "High-Quality Protein Force Fields with Noisy Quantum Processors", arXiv:1907.07128, (2019).

[249] David W. Kribs, Ningping Cao, Chi-Kwong Li, Yiu-Tung Poon, Bei Zeng, and Mike Nelson, "Higher Rank Matricial Ranges and Hybrid Quantum Error Correction", arXiv:1911.12744, (2019).

[250] H. W. L. Naus, "NISQ computing for decision making under uncertainty", arXiv:1911.06167, (2019).

[251] Hsin-Yuan Huang, Richard Kueng, and John Preskill, "Predicting many properties of a quantum system from very few measurements", Nature Physics 16 10, 1050 (2020).

[252] Michael J. Gullans and David A. Huse, "Dynamical Purification Phase Transition Induced by Quantum Measurements", Physical Review X 10 4, 041020 (2020).

[253] Wim Bogaerts, Daniel Pérez, José Capmany, David A. B. Miller, Joyce Poon, Dirk Englund, Francesco Morichetti, and Andrea Melloni, "Programmable photonic circuits", Nature 586 7828, 207 (2020).

[254] Maria Schuld, Alex Bocharov, Krysta M. Svore, and Nathan Wiebe, "Circuit-centric quantum classifiers", Physical Review A 101 3, 032308 (2020).

[255] Loïc Henriet, Lucas Beguin, Adrien Signoles, Thierry Lahaye, Antoine Browaeys, Georges-Olivier Reymond, and Christophe Jurczak, "Quantum computing with neutral atoms", Quantum 4, 327 (2020).

[256] James Stokes, Josh Izaac, Nathan Killoran, and Giuseppe Carleo, "Quantum Natural Gradient", Quantum 4, 269 (2020).

[257] Leo Zhou, Sheng-Tao Wang, Soonwon Choi, Hannes Pichler, and Mikhail D. Lukin, "Quantum Approximate Optimization Algorithm: Performance, Mechanism, and Implementation on Near-Term Devices", Physical Review X 10 2, 021067 (2020).

[258] Natalie Klco, Martin J. Savage, and Jesse R. Stryker, "SU(2) non-Abelian gauge field theory in one dimension on digital quantum computers", Physical Review D 101 7, 074512 (2020).

[259] YaoChong Li, Ri-Gui Zhou, RuQing Xu, Jia Luo, and WenWen Hu, "A quantum deep convolutional neural network for image recognition", Quantum Science and Technology 5 4, 044003 (2020).

[260] Suguru Endo, Jinzhao Sun, Ying Li, Simon C. Benjamin, and Xiao Yuan, "Variational Quantum Simulation of General Processes", Physical Review Letters 125 1, 010501 (2020).

[261] Yiqing Zhou, E. Miles Stoudenmire, and Xavier Waintal, "What Limits the Simulation of Quantum Computers?", Physical Review X 10 4, 041038 (2020).

[262] Ryan Sweke, Frederik Wilde, Johannes Meyer, Maria Schuld, Paul K. Faehrmann, Barthélémy Meynard-Piganeau, and Jens Eisert, "Stochastic gradient descent for hybrid quantum-classical optimization", Quantum 4, 314 (2020).

[263] Zohreh Davoudi, Mohammad Hafezi, Christopher Monroe, Guido Pagano, Alireza Seif, and Andrew Shaw, "Towards analog quantum simulations of lattice gauge theories with trapped ions", Physical Review Research 2 2, 023015 (2020).

[264] Ken X. Wei, Isaac Lauer, Srikanth Srinivasan, Neereja Sundaresan, Douglas T. McClure, David Toyli, David C. McKay, Jay M. Gambetta, and Sarah Sheldon, "Verifying multipartite entangled Greenberger-Horne-Zeilinger states via multiple quantum coherences", Physical Review A 101 3, 032343 (2020).

[265] Andre He, Benjamin Nachman, Wibe A. de Jong, and Christian W. Bauer, "Zero-noise extrapolation for quantum-gate error mitigation with identity insertions", Physical Review A 102 1, 012426 (2020).

[266] Ryan LaRose and Brian Coyle, "Robust data encodings for quantum classifiers", Physical Review A 102 3, 032420 (2020).

[267] Jarrod R. McClean, Zhang Jiang, Nicholas C. Rubin, Ryan Babbush, and Hartmut Neven, "Decoding quantum errors with subspace expansions", Nature Communications 11, 636 (2020).

[268] Victor V. Albert, Jacob P. Covey, and John Preskill, "Robust Encoding of a Qubit in a Molecule", Physical Review X 10 3, 031050 (2020).

[269] P. Magnard, S. Storz, P. Kurpiers, J. Schär, F. Marxer, J. Lütolf, T. Walter, J. -C. Besse, M. Gabureac, K. Reuer, A. Akin, B. Royer, A. Blais, and A. Wallraff, "Microwave Quantum Link between Superconducting Circuits Housed in Spatially Separated Cryogenic Systems", Physical Review Letters 125 26, 260502 (2020).

[270] Mohan Sarovar, Timothy Proctor, Kenneth Rudinger, Kevin Young, Erik Nielsen, and Robin Blume-Kohout, "Detecting crosstalk errors in quantum information processors", Quantum 4, 321 (2020).

[271] Andrew Zhao, Andrew Tranter, William M. Kirby, Shu Fay Ung, Akimasa Miyake, and Peter J. Love, "Measurement reduction in variational quantum algorithms", Physical Review A 101 6, 062322 (2020).

[272] Andreas Elben, Benoît Vermersch, Rick van Bijnen, Christian Kokail, Tiff Brydges, Christine Maier, Manoj K. Joshi, Rainer Blatt, Christian F. Roos, and Peter Zoller, "Cross-Platform Verification of Intermediate Scale Quantum Devices", Physical Review Letters 124 1, 010504 (2020).

[273] Andrea Mari, Thomas R. Bromley, Josh Izaac, Maria Schuld, and Nathan Killoran, "Transfer learning in hybrid classical-quantum neural networks", Quantum 4, 340 (2020).

[274] Oliver Lunt and Arijeet Pal, "Measurement-induced entanglement transitions in many-body localized systems", Physical Review Research 2 4, 043072 (2020).

[275] Yuxuan Du, Min-Hsiu Hsieh, Tongliang Liu, and Dacheng Tao, "Expressive power of parametrized quantum circuits", Physical Review Research 2 3, 033125 (2020).

[276] Sabrina S. Hong, Alexander T. Papageorge, Prasahnt Sivarajah, Genya Crossman, Nicolas Didier, Anthony M. Polloreno, Eyob A. Sete, Stefan W. Turkowski, Marcus P. da Silva, and Blake R. Johnson, "Demonstration of a parametrically activated entangling gate protected from flux noise", Physical Review A 101 1, 012302 (2020).

[277] Sirui Lu, Lu-Ming Duan, and Dong-Ling Deng, "Quantum adversarial machine learning", Physical Review Research 2 3, 033212 (2020).

[278] S. Paesani, M. Borghi, S. Signorini, A. Maïnos, L. Pavesi, and A. Laing, "Near-ideal spontaneous photon sources in silicon quantum photonics", Nature Communications 11, 2505 (2020).

[279] Thomas R. Bromley, Juan Miguel Arrazola, Soran Jahangiri, Josh Izaac, Nicolás Quesada, Alain Delgado Gran, Maria Schuld, Jeremy Swinarton, Zeid Zabaneh, and Nathan Killoran, "Applications of near-term photonic quantum computers: software and algorithms", Quantum Science and Technology 5 3, 034010 (2020).

[280] Jonas M. Kübler, Andrew Arrasmith, Lukasz Cincio, and Patrick J. Coles, "An Adaptive Optimizer for Measurement-Frugal Variational Algorithms", Quantum 4, 263 (2020).

[281] Xiu-Zhe Luo, Jin-Guo Liu, Pan Zhang, and Lei Wang, "Yao.jl: Extensible, Efficient Framework for Quantum Algorithm Design", Quantum 4, 341 (2020).

[282] Natalie Klco and Martin J. Savage, "Minimally entangled state preparation of localized wave functions on quantum computers", Physical Review A 102 1, 012612 (2020).

[283] Suguru Endo, Iori Kurata, and Yuya O. Nakagawa, "Calculation of the Green's function on near-term quantum computers", Physical Review Research 2 3, 033281 (2020).

[284] Benjamin Villalonga, Dmitry Lyakh, Sergio Boixo, Hartmut Neven, Travis S. Humble, Rupak Biswas, Eleanor G. Rieffel, Alan Ho, and Salvatore Mandrà, "Establishing the quantum supremacy frontier with a 281 Pflop/s simulation", Quantum Science and Technology 5 3, 034003 (2020).

[285] Beatrice Nash, Vlad Gheorghiu, and Michele Mosca, "Quantum circuit optimizations for NISQ architectures", Quantum Science and Technology 5 2, 025010 (2020).

[286] Carlos Bravo-Prieto, Diego García-Martín, and José I. Latorre, "Quantum singular value decomposer", Physical Review A 101 6, 062310 (2020).

[287] Frank Leymann and Johanna Barzen, "The bitter truth about gate-based quantum algorithms in the NISQ era", Quantum Science and Technology 5 4, 044007 (2020).

[288] Wataru Mizukami, Kosuke Mitarai, Yuya O. Nakagawa, Takahiro Yamamoto, Tennin Yan, and Yu-ya Ohnishi, "Orbital optimized unitary coupled cluster theory for quantum computer", Physical Review Research 2 3, 033421 (2020).

[289] Giacomo Torlai, Guglielmo Mazzola, Giuseppe Carleo, and Antonio Mezzacapo, "Precise measurement of quantum observables with neural-network estimators", Physical Review Research 2 2, 022060 (2020).

[290] Indrakshi Raychowdhury and Jesse R. Stryker, "Solving Gauss's law on digital quantum computers with loop-string-hadron digitization", Physical Review Research 2 3, 033039 (2020).

[291] Andreas Bengtsson, Pontus Vikstâl, Christopher Warren, Marika Svensson, Xiu Gu, Anton Frisk Kockum, Philip Krantz, Christian Križan, Daryoush Shiri, Ida-Maria Svensson, Giovanna Tancredi, Göran Johansson, Per Delsing, Giulia Ferrini, and Jonas Bylander, "Improved Success Probability with Greater Circuit Depth for the Quantum Approximate Optimization Algorithm", Physical Review Applied 14 3, 034010 (2020).

[292] M. Ganzhorn, G. Salis, D. J. Egger, A. Fuhrer, M. Mergenthaler, C. Müller, P. Müller, S. Paredes, M. Pechal, M. Werninghaus, and S. Filipp, "Benchmarking the noise sensitivity of different parametric two-qubit gates in a single superconducting quantum computing platform", Physical Review Research 2 3, 033447 (2020).

[293] Kyungjoo Noh, Liang Jiang, and Bill Fefferman, "Efficient classical simulation of noisy random quantum circuits in one dimension", Quantum 4, 318 (2020).

[294] Annie Y. Wei, Preksha Naik, Aram W. Harrow, and Jesse Thaler, "Quantum algorithms for jet clustering", Physical Review D 101 9, 094015 (2020).

[295] Martin Koppenhöfer, Christoph Bruder, and Alexandre Roulet, "Quantum synchronization on the IBM Q system", Physical Review Research 2 2, 023026 (2020).

[296] Kevin J. Sung, Jiahao Yao, Matthew P. Harrigan, Nicholas C. Rubin, Zhang Jiang, Lin Lin, Ryan Babbush, and Jarrod R. McClean, "Using models to improve optimizers for variational quantum algorithms", Quantum Science and Technology 5 4, 044008 (2020).

[297] Peter J. Karalekas, Nikolas A. Tezak, Eric C. Peterson, Colm A. Ryan, Marcus P. da Silva, and Robert S. Smith, "A quantum-classical cloud platform optimized for variational hybrid algorithms", Quantum Science and Technology 5 2, 024003 (2020).

[298] Nobuyuki Yoshioka, Yuya O. Nakagawa, Kosuke Mitarai, and Keisuke Fujii, "Variational quantum algorithm for nonequilibrium steady states", Physical Review Research 2 4, 043289 (2020).

[299] Di Luo, Jiayu Shen, Michael Highman, Bryan K. Clark, Brian DeMarco, Aida X. El-Khadra, and Bryce Gadway, "Framework for simulating gauge theories with dipolar spin systems", Physical Review A 102 3, 032617 (2020).

[300] Karol Bartkiewicz, Clemens Gneiting, Antonín Černoch, Kateřina Jiráková, Karel Lemr, and Franco Nori, "Experimental kernel-based quantum machine learning in finite feature space", Scientific Reports 10, 12356 (2020).

[301] R. Dassonneville, T. Ramos, V. Milchakov, L. Planat, É. Dumur, F. Foroughi, J. Puertas, S. Leger, K. Bharadwaj, J. Delaforce, C. Naud, W. Hasch-Guichard, J. J. García-Ripoll, N. Roch, and O. Buisson, "Fast High-Fidelity Quantum Nondemolition Qubit Readout via a Nonperturbative Cross-Kerr Coupling", Physical Review X 10 1, 011045 (2020).

[302] Trevor Keen, Thomas Maier, Steven Johnston, and Pavel Lougovski, "Quantum-classical simulation of two-site dynamical mean-field theory on noisy quantum hardware", Quantum Science and Technology 5 3, 035001 (2020).

[303] Moslem Noori, Seyed Shakib Vedaie, Inderpreet Singh, Daniel Crawford, Jaspreet S. Oberoi, Barry C. Sanders, and Ehsan Zahedinejad, "Analog-Quantum Feature Mapping for Machine-Learning Applications", Physical Review Applied 14 3, 034034 (2020).

[304] Matteo M. Wauters, Emanuele Panizon, Glen B. Mbeng, and Giuseppe E. Santoro, "Reinforcement-learning-assisted quantum optimization", Physical Review Research 2 3, 033446 (2020).

[305] Li Li, Minjie Fan, Marc Coram, Patrick Riley, and Stefan Leichenauer, "Quantum optimization with a novel Gibbs objective function and ansatz architecture search", Physical Review Research 2 2, 023074 (2020).

[306] Natalie Klco and Martin J. Savage, "Systematically localizable operators for quantum simulations of quantum field theories", Physical Review A 102 1, 012619 (2020).

[307] Matthew Amy and Vlad Gheorghiu, "staq—A full-stack quantum processing toolkit", Quantum Science and Technology 5 3, 034016 (2020).

[308] A. Roggero, "Spectral-density estimation with the Gaussian integral transform", Physical Review A 102 2, 022409 (2020).

[309] Huitao Shen, Pengfei Zhang, Yi-Zhuang You, and Hui Zhai, "Information Scrambling in Quantum Neural Networks", Physical Review Letters 124 20, 200504 (2020).

[310] Laura Gentini, Alessandro Cuccoli, Stefano Pirandola, Paola Verrucchi, and Leonardo Banchi, "Noise-resilient variational hybrid quantum-classical optimization", Physical Review A 102 5, 052414 (2020).

[311] Miroslav Urbanek, Benjamin Nachman, and Wibe A. de Jong, "Error detection on quantum computers improving the accuracy of chemical calculations", Physical Review A 102 2, 022427 (2020).

[312] Nana Liu and Peter Wittek, "Vulnerability of quantum classification to adversarial perturbations", Physical Review A 101 6, 062331 (2020).

[313] Carlos Bravo-Prieto, Josep Lumbreras-Zarapico, Luca Tagliacozzo, and José I. Latorre, "Scaling of variational quantum circuit depth for condensed matter systems", Quantum 4, 272 (2020).

[314] L. C. G. Govia, G. J. Ribeill, D. Ristè, M. Ware, and H. Krovi, "Bootstrapping quantum process tomography via a perturbative ansatz", Nature Communications 11, 1084 (2020).

[315] Giacomo Torlai, Juan Carrasquilla, Matthew T. Fishman, Roger G. Melko, and Matthew P. A. Fisher, "Wave-function positivization via automatic differentiation", Physical Review Research 2 3, 032060 (2020).

[316] Tyson Jones and Simon Benjamin, "QuESTlink—Mathematica embiggened by a hardware-optimised quantum emulator", Quantum Science and Technology 5 3, 034012 (2020).

[317] B. Jaderberg, A. Agarwal, K. Leonhardt, M. Kiffner, and D. Jaksch, "Minimum hardware requirements for hybrid quantum-classical DMFT", Quantum Science and Technology 5 3, 034015 (2020).

[318] Jin-Min Liang, Shu-Qian Shen, Ming Li, and Lei Li, "Variational quantum algorithms for dimensionality reduction and classification", Physical Review A 101 3, 032323 (2020).

[319] Charles Moussa, Henri Calandra, and Vedran Dunjko, "To quantum or not to quantum: towards algorithm selection in near-term quantum optimization", Quantum Science and Technology 5 4, 044009 (2020).

[320] Kun Zhang and Vladimir E. Korepin, "Depth optimization of quantum search algorithms beyond Grover's algorithm", Physical Review A 101 3, 032346 (2020).

[321] Pranav S. Mundada, András Gyenis, Ziwen Huang, Jens Koch, and Andrew A. Houck, "Floquet-Engineered Enhancement of Coherence Times in a Driven Fluxonium Qubit", Physical Review Applied 14 5, 054033 (2020).

[322] Francesco Tacchino, Panagiotis Barkoutsos, Chiara Macchiavello, Ivano Tavernelli, Dario Gerace, and Daniele Bajoni, "Quantum implementation of an artificial feed-forward neural network", Quantum Science and Technology 5 4, 044010 (2020).

[323] Laura García-Álvarez, Cameron Calcluth, Alessandro Ferraro, and Giulia Ferrini, "Efficient simulatability of continuous-variable circuits with large Wigner negativity", Physical Review Research 2 4, 043322 (2020).

[324] P. M. Q. Cruz, G. Catarina, R. Gautier, and J. Fernández-Rossier, "Optimizing quantum phase estimation for the simulation of Hamiltonian eigenstates", Quantum Science and Technology 5 4, 044005 (2020).

[325] Jirawat Tangpanitanon, Supanut Thanasilp, Ninnat Dangniam, Marc-Antoine Lemonde, and Dimitris G. Angelakis, "Expressibility and trainability of parametrized analog quantum systems for machine learning applications", Physical Review Research 2 4, 043364 (2020).

[326] Andreas J. C. Woitzik, Panagiotis Kl. Barkoutsos, Filip Wudarski, Andreas Buchleitner, and Ivano Tavernelli, "Entanglement production and convergence properties of the variational quantum eigensolver", Physical Review A 102 4, 042402 (2020).

[327] Amritesh Sharma and Ashwin A. Tulapurkar, "Generation of n -qubit W states using spin torque", Physical Review A 101 6, 062330 (2020).

[328] Dan-Bo Zhang and Tao Yin, "Collective optimization for variational quantum eigensolvers", Physical Review A 101 3, 032311 (2020).

[329] Laszlo Gyongyosi and Sandor Imre, "Optimizing High-Efficiency Quantum Memory with Quantum Machine Learning for Near-Term Quantum Devices", Scientific Reports 10, 135 (2020).

[330] Piotr Szańkowski and Łukasz Cywiński, "Noise representations of open system dynamics", Scientific Reports 10, 22189 (2020).

[331] Shilu Yan, Hongsheng Qi, and Wei Cui, "Nonlinear quantum neuron: A fundamental building block for quantum neural networks", Physical Review A 102 5, 052421 (2020).

[332] Jelmer J. Renema, "Simulability of partially distinguishable superposition and Gaussian boson sampling", Physical Review A 101 6, 063840 (2020).

[333] Adam Holmes, Sonika Johri, Gian Giacomo Guerreschi, James S. Clarke, and A. Y. Matsuura, "Impact of qubit connectivity on quantum algorithm performance", Quantum Science and Technology 5 2, 025009 (2020).

[334] Andrew Litteken, Yung-Ching Fan, Devina Singh, Margaret Martonosi, and Frederic T. Chong, "An updated LLVM-based quantum research compiler with further OpenQASM support", Quantum Science and Technology 5 3, 034013 (2020).

[335] Xiaoxia Cai, Wei-Hai Fang, Heng Fan, and Zhendong Li, "Quantum computation of molecular response properties", Physical Review Research 2 3, 033324 (2020).

[336] Nathan K. Lysne, Kevin W. Kuper, Pablo M. Poggi, Ivan H. Deutsch, and Poul S. Jessen, "Small, Highly Accurate Quantum Processor for Intermediate-Depth Quantum Simulations", Physical Review Letters 124 23, 230501 (2020).

[337] Michel Fabrice Serret, Bertrand Marchand, and Thomas Ayral, "Solving optimization problems with Rydberg analog quantum computers: Realistic requirements for quantum advantage using noisy simulation and classical benchmarks", Physical Review A 102 5, 052617 (2020).

[338] Yulun Wang and Predrag S. Krstic, "Prospect of using Grover's search in the noisy-intermediate-scale quantum-computer era", Physical Review A 102 4, 042609 (2020).

[339] Lingling Lao and Carmen G. Almudever, "Fault-tolerant quantum error correction on near-term quantum processors using flag and bridge qubits", Physical Review A 101 3, 032333 (2020).

[340] Akram Youssry, Robert J. Chapman, Alberto Peruzzo, Christopher Ferrie, and Marco Tomamichel, "Modeling and control of a reconfigurable photonic circuit using deep learning", Quantum Science and Technology 5 2, 025001 (2020).

[341] J. J. García-Ripoll, A. Ruiz-Chamorro, and E. Torrontegui, "Quantum Control of Frequency-Tunable Transmon Superconducting Qubits", Physical Review Applied 14 4, 044035 (2020).

[342] Tanay Roy, Sumeru Hazra, Suman Kundu, Madhavi Chand, Meghan P. Patankar, and R. Vijay, "Programmable Superconducting Processor with Native Three-Qubit Gates", Physical Review Applied 14 1, 014072 (2020).

[343] Laszlo Gyongyosi, "Quantum State Optimization and Computational Pathway Evaluation for Gate-Model Quantum Computers", Scientific Reports 10, 4543 (2020).

[344] Riddhi Swaroop Gupta, Luke C. G. Govia, and Michael J. Biercuk, "Integration of spectator qubits into quantum computer architectures for hardware tune-up and calibration", Physical Review A 102 4, 042611 (2020).

[345] Daan Camps and Roel Van Beeumen, "Approximate quantum circuit synthesis using block encodings", Physical Review A 102 5, 052411 (2020).

[346] Loïc Henriet, "Robustness to spontaneous emission of a variational quantum algorithm", Physical Review A 101 1, 012335 (2020).

[347] Ahmed Abid Moueddene, Nader Khammassi, Koen Bertels, and Carmen G. Almudever, "Realistic simulation of quantum computation using unitary and measurement channels", Physical Review A 102 5, 052608 (2020).

[348] Andrey Kardashin, Alexey Uvarov, Dmitry Yudin, and Jacob Biamonte, "Certified variational quantum algorithms for eigenstate preparation", Physical Review A 102 5, 052610 (2020).

[349] Asier Galicia, Borja Ramon, Enrique Solano, and Mikel Sanz, "Enhanced connectivity of quantum hardware with digital-analog control", Physical Review Research 2 3, 033103 (2020).

[350] Scott E. Smart and David A. Mazziotti, "Efficient two-electron ansatz for benchmarking quantum chemistry on a quantum computer", Physical Review Research 2 2, 023048 (2020).

[351] Laszlo Gyongyosi and Sandor Imre, "Theory of Noise-Scaled Stability Bounds and Entanglement Rate Maximization in the Quantum Internet", Scientific Reports 10, 2745 (2020).

[352] Michael P. Kaicher, Simon B. Jäger, Pierre-Luc Dallaire-Demers, and Frank K. Wilhelm, "Roadmap for quantum simulation of the fractional quantum Hall effect", Physical Review A 102 2, 022607 (2020).

[353] Cristina Cîrstoiu, Kamil Korzekwa, and David Jennings, "Robustness of Noether's Principle: Maximal Disconnects between Conservation Laws and Symmetries in Quantum Theory", Physical Review X 10 4, 041035 (2020).

[354] Laszlo Gyongyosi, "Unsupervised Quantum Gate Control for Gate-Model Quantum Computers", Scientific Reports 10, 10701 (2020).

[355] William M. Kirby and Peter J. Love, "Classical simulation of noncontextual Pauli Hamiltonians", Physical Review A 102 3, 032418 (2020).

[356] María García Díaz, Benjamin Desef, Matteo Rosati, Dario Egloff, John Calsamiglia, Andrea Smirne, Michaelis Skotiniotis, and Susana F. Huelga, "Accessible coherence in open quantum system dynamics", Quantum 4, 249 (2020).

[357] Takahiro Tsunoda, Gaurav Bhole, Stephen A. Jones, Jonathan A. Jones, and Peter J. Leek, "Efficient Hamiltonian programming in qubit arrays with nearest-neighbor couplings", Physical Review A 102 3, 032405 (2020).

[358] George S. Barron, F. A. Calderon-Vargas, Junling Long, David P. Pappas, and Sophia E. Economou, "Microwave-based arbitrary uc(cphase) gates for transmon qubits", Physical Review B 101 5, 054508 (2020).

[359] Wesley C. Campbell, "Certified quantum gates", Physical Review A 102 2, 022426 (2020).

[360] Mahmoud Mahdian and H. Davoodi Yeganeh, "Incoherent quantum algorithm dynamics of an open system with near-term devices", Quantum Information Processing 19 9, 285 (2020).

[361] Igor Brandão, Bruno Suassuna, Bruno Melo, and Thiago Guerreiro, "Entanglement dynamics in dispersive optomechanics: Nonclassicality and revival", Physical Review Research 2 4, 043421 (2020).

[362] Akshaya Jayashankar, Anjala M. Babu, Hui Khoon Ng, and Prabha Mandayam, "Finding good quantum codes using the Cartan form", Physical Review A 101 4, 042307 (2020).

[363] Rawad Mezher, Joe Ghalbouni, Joseph Dgheim, and Damian Markham, "Fault-tolerant quantum speedup from constant depth quantum circuits", Physical Review Research 2 3, 033444 (2020).

[364] Iskren Vankov, Daniel Mills, Petros Wallden, and Elham Kashefi, "Methods for classically simulating noisy networked quantum architectures", Quantum Science and Technology 5 1, 014001 (2020).

[365] Joris Kattemölle and Jasper van Wezel, "Conditions for superdecoherence", Quantum 4, 265 (2020).

[366] Chen Lin and GuoWu Yang, "Concatenated pieceable fault-tolerant scheme for universal quantum computation", Physical Review A 102 5, 052415 (2020).

[367] Omer Sakarya, Marek Winczewski, Adam Rutkowski, and Karol Horodecki, "Hybrid quantum network design against unauthorized secret-key generation, and its memory cost", Physical Review Research 2 4, 043022 (2020).

[368] Chungwei Lin, Dries Sels, Yanting Ma, and Yebin Wang, "Stochastic optimal control formalism for an open quantum system", Physical Review A 102 5, 052605 (2020).

[369] V. O. Shkolnikov and Guido Burkard, "Effective Hamiltonian theory of the geometric evolution of quantum systems", Physical Review A 101 4, 042101 (2020).

[370] L. C. G. Govia, D. Bunandar, J. Lin, D. Englund, N. Lütkenhaus, and H. Krovi, "Clifford-group-restricted eavesdroppers in quantum key distribution", Physical Review A 101 6, 062318 (2020).

[371] Christopher T. Olund, Maxwell Block, Snir Gazit, John McGreevy, and Norman Y. Yao, "Adiabatic ground state preparation in an expanding lattice", Physical Review B 101 15, 155152 (2020).

[372] Laszlo Gyongyosi and Sandor Imre, "Resource prioritization and balancing for the quantum internet", Scientific Reports 10, 22390 (2020).

[373] Seung-Woo Lee, Jaewan Kim, and Wonmin Son, "Noise-adaptive test of quantum correlations with quasiprobability functions", Physical Review A 102 1, 012408 (2020).

[374] Michael Hanks, William J. Munro, and Kae Nemoto, "Optical manipulation of the negative silicon-vacancy center in diamond", Physical Review A 102 2, 022616 (2020).

[375] M. Cerezo, Akira Sone, Tyler Volkoff, Lukasz Cincio, and Patrick J. Coles, "Cost function dependent barren plateaus in shallow parametrized quantum circuits", Nature Communications 12, 1791 (2021).

[376] Michael Broughton, Guillaume Verdon, Trevor McCourt, Antonio J. Martinez, Jae Hyeon Yoo, Sergei V. Isakov, Philip Massey, Ramin Halavati, Murphy Yuezhen Niu, Alexander Zlokapa, Evan Peters, Owen Lockwood, Andrea Skolik, Sofiene Jerbi, Vedran Dunjko, Martin Leib, Michael Streif, David Von Dollen, Hongxiang Chen, Shuxiang Cao, Roeland Wiersema, Hsin-Yuan Huang, Jarrod R. McClean, Ryan Babbush, Sergio Boixo, Dave Bacon, Alan K. Ho, Hartmut Neven, and Masoud Mohseni, "TensorFlow Quantum: A Software Framework for Quantum Machine Learning", arXiv:2003.02989, (2020).

[377] M. Morgado and S. Whitlock, "Quantum simulation and computing with Rydberg-interacting qubits", AVS Quantum Science 3 2, 023501 (2021).

[378] Yunseong Nam, Jwo-Sy Chen, Neal C. Pisenti, Kenneth Wright, Conor Delaney, Dmitri Maslov, Kenneth R. Brown, Stewart Allen, Jason M. Amini, Joel Apisdorf, Kristin M. Beck, Aleksey Blinov, Vandiver Chaplin, Mika Chmielewski, Coleman Collins, Shantanu Debnath, Kai M. Hudek, Andrew M. Ducore, Matthew Keesan, Sarah M. Kreikemeier, Jonathan Mizrahi, Phil Solomon, Mike Williams, Jaime David Wong-Campos, David Moehring, Christopher Monroe, and Jungsang Kim, "Ground-state energy estimation of the water molecule on a trapped-ion quantum computer", npj Quantum Information 6, 33 (2020).

[379] Bryan T. Gard, Linghua Zhu, George S. Barron, Nicholas J. Mayhall, Sophia E. Economou, and Edwin Barnes, "Efficient symmetry-preserving state preparation circuits for the variational quantum eigensolver algorithm", npj Quantum Information 6, 10 (2020).

[380] D. Chivilikhin, A. Samarin, V. Ulyantsev, I. Iorsh, A. R. Oganov, and O. Kyriienko, "MoG-VQE: Multiobjective genetic variational quantum eigensolver", arXiv:2007.04424, (2020).

[381] Brian Coyle, Daniel Mills, Vincent Danos, and Elham Kashefi, "The Born supremacy: quantum advantage and training of an Ising Born machine", npj Quantum Information 6, 60 (2020).

[382] Yordan S. Yordanov, V. Armaos, Crispin H. W. Barnes, and David R. M. Arvidsson-Shukur, "Qubit-excitation-based adaptive variational quantum eigensolver", Communications Physics 4 1, 228 (2021).

[383] Benjamin Nachman, Miroslav Urbanek, Wibe A. de Jong, and Christian W. Bauer, "Unfolding quantum computer readout noise", npj Quantum Information 6, 84 (2020).

[384] Rui Chao, Dawei Ding, Andras Gilyen, Cupjin Huang, and Mario Szegedy, "Finding Angles for Quantum Signal Processing with Machine Precision", arXiv:2003.02831, (2020).

[385] Kübra Yeter-Aydeniz, Raphael C. Pooser, and George Siopsis, "Practical quantum computation of chemical and nuclear energy levels using quantum imaginary time evolution and Lanczos algorithms", npj Quantum Information 6, 63 (2020).

[386] Gian-Luca R. Anselmetti, David Wierichs, Christian Gogolin, and Robert M. Parrish, "Local, expressive, quantum-number-preserving VQE ansätze for fermionic systems", New Journal of Physics 23 11, 113010 (2021).

[387] Johannes Nokkala, Rodrigo Martínez-Peña, Gian Luca Giorgi, Valentina Parigi, Miguel C. Soriano, and Roberta Zambrini, "Gaussian states of continuous-variable quantum systems provide universal and versatile reservoir computing", Communications Physics 4 1, 53 (2021).

[388] Justin E. Christensen, David Hucul, Wesley C. Campbell, and Eric R. Hudson, "High-fidelity manipulation of a qubit enabled by a manufactured nucleus", npj Quantum Information 6, 35 (2020).

[389] Andrew D. King, Jack Raymond, Trevor Lanting, Sergei V. Isakov, Masoud Mohseni, Gabriel Poulin-Lamarre, Sara Ejtemaee, William Bernoudy, Isil Ozfidan, Anatoly Yu. Smirnov, Mauricio Reis, Fabio Altomare, Michael Babcock, Catia Baron, Andrew J. Berkley, Kelly Boothby, Paul I. Bunyk, Holly Christiani, Colin Enderud, Bram Evert, Richard Harris, Emile Hoskinson, Shuiyuan Huang, Kais Jooya, Ali Khodabandelou, Nicolas Ladizinsky, Ryan Li, P. Aaron Lott, Allison J. R. MacDonald, Danica Marsden, Gaelen Marsden, Teresa Medina, Reza Molavi, Richard Neufeld, Mana Norouzpour, Travis Oh, Igor Pavlov, Ilya Perminov, Thomas Prescott, Chris Rich, Yuki Sato, Benjamin Sheldan, George Sterling, Loren J. Swenson, Nicholas Tsai, Mark H. Volkmann, Jed D. Whittaker, Warren Wilkinson, Jason Yao, Hartmut Neven, Jeremy P. Hilton, Eric Ladizinsky, Mark W. Johnson, and Mohammad H. Amin, "Scaling advantage over path-integral Monte Carlo in quantum simulation of geometrically frustrated magnets", Nature Communications 12, 1113 (2021).

[390] Huan-Yu Ku, Neill Lambert, Feng-Jui Chan, Clive Emary, Yueh-Nan Chen, and Franco Nori, "Experimental test of non-macrorealistic cat states in the cloud", npj Quantum Information 6, 98 (2020).

[391] Kyle Poland, Kerstin Beer, and Tobias J. Osborne, "No Free Lunch for Quantum Machine Learning", arXiv:2003.14103, (2020).

[392] Bálint Koczor, "The dominant eigenvector of a noisy quantum state", New Journal of Physics 23 12, 123047 (2021).

[393] Koji Terashi, Michiru Kaneda, Tomoe Kishimoto, Masahiko Saito, Ryu Sawada, and Junichi Tanaka, "Event Classification with Quantum Machine Learning in High-Energy Physics", Computing and Software for Big Science 5 1, 2 (2021).

[394] Kosuke Mitarai and Keisuke Fujii, "Constructing a virtual two-qubit gate by sampling single-qubit operations", New Journal of Physics 23 2, 023021 (2021).

[395] Hsin-Yuan Huang, Kishor Bharti, and Patrick Rebentrost, "Near-term quantum algorithms for linear systems of equations with regression loss functions", New Journal of Physics 23 11, 113021 (2021).

[396] Laura Clinton, Johannes Bausch, and Toby Cubitt, "Hamiltonian simulation algorithms for near-term quantum hardware", Nature Communications 12, 4989 (2021).

[397] S. Carretta, D. Zueco, A. Chiesa, Á. Gómez-León, and F. Luis, "A perspective on scaling up quantum computation with molecular spins", Applied Physics Letters 118 24, 240501 (2021).

[398] Kübra Yeter-Aydeniz, George Siopsis, and Raphael C. Pooser, "Scattering in the Ising model with the quantum Lanczos algorithm", New Journal of Physics 23 4, 043033 (2021).

[399] Cheng Xue, Zhao-Yun Chen, Yu-Chun Wu, and Guo-Ping Guo, "Effects of Quantum Noise on Quantum Approximate Optimization Algorithm", Chinese Physics Letters 38 3, 030302 (2021).

[400] Yukio Kawashima, Erika Lloyd, Marc P. Coons, Yunseong Nam, Shunji Matsuura, Alejandro J. Garza, Sonika Johri, Lee Huntington, Valentin Senicourt, Andrii O. Maksymov, Jason H. V. Nguyen, Jungsang Kim, Nima Alidoust, Arman Zaribafiyan, and Takeshi Yamazaki, "Optimizing electronic structure simulations on a trapped-ion quantum computer using problem decomposition", Communications Physics 4 1, 245 (2021).

[401] Bartosz Regula and Ryuji Takagi, "Fundamental limitations on distillation of quantum channel resources", Nature Communications 12, 4411 (2021).

[402] V. Cimini, S. Gherardini, M. Barbieri, I. Gianani, M. Sbroscia, L. Buffoni, M. Paternostro, and F. Caruso, "Experimental characterization of the energetics of quantum logic gates", npj Quantum Information 6, 96 (2020).

[403] Yuxuan Du, Min-Hsiu Hsieh, Tongliang Liu, and Dacheng Tao, "A Grover-search based quantum learning scheme for classification", New Journal of Physics 23 2, 023020 (2021).

[404] Arianne Meijer-van de Griend and Ross Duncan, "Architecture-Aware Synthesis of Phase Polynomials for NISQ Devices", arXiv:2004.06052, (2020).

[405] Xiruo Yan, Sebastian Gitt, Becky Lin, Donald Witt, Mahssa Abdolahi, Abdelrahman Afifi, Adan Azem, Adam Darcie, Jingda Wu, Kashif Awan, Matthew Mitchell, Andreas Pfenning, Lukas Chrostowski, and Jeff F. Young, "Silicon photonic quantum computing with spin qubits", APL Photonics 6 7, 070901 (2021).

[406] Jie Liu, Zhenyu Li, and Jinlong Yang, "An efficient adaptive variational quantum solver of the Schrödinger equation based on reduced density matrices", Journal of Chemical Physics 154 24, 244112 (2021).

[407] Alexander J. Buser, Hrant Gharibyan, Masanori Hanada, Masazumi Honda, and Junyu Liu, "Quantum simulation of gauge theory via orbifold lattice", Journal of High Energy Physics 2021 9, 34 (2021).

[408] Xiao-Dong Yu, Timo Simnacher, Nikolai Wyderka, H. Chau Nguyen, and Otfried Gühne, "A complete hierarchy for the pure state marginal problem in quantum mechanics", Nature Communications 12, 1012 (2021).

[409] B. Paquelet Wuetz, P. L. Bavdaz, L. A. Yeoh, R. Schouten, H. van der Does, M. Tiggelman, D. Sabbagh, A. Sammak, C. G. Almudever, F. Sebastiano, J. S. Clarke, M. Veldhorst, and G. Scappucci, "Multiplexed quantum transport using commercial off-the-shelf CMOS at sub-kelvin temperatures", npj Quantum Information 6, 43 (2020).

[410] András Gilyén, Zhao Song, and Ewin Tang, "An improved quantum-inspired algorithm for linear regression", arXiv:2009.07268, (2020).

[411] Matteo G. Pozzi, Steven J. Herbert, Akash Sengupta, and Robert D. Mullins, "Using Reinforcement Learning to Perform Qubit Routing in Quantum Compilers", arXiv:2007.15957, (2020).

[412] Dmitry A. Fedorov, Matthew J. Otten, Stephen K. Gray, and Yuri Alexeev, "Ab initio molecular dynamics on quantum computers", Journal of Chemical Physics 154 16, 164103 (2021).

[413] Jeremy C. Adcock, Jueming Bao, Yulin Chi, Xiaojiong Chen, Davide Bacco, Qihuang Gong, Leif K. Oxenlowe, Jianwei Wang, and Yunhong Ding, "Advances in Silicon Quantum Photonics", IEEE Journal of Selected Topics in Quantum Electronics 27 2, 3025737 (2021).

[414] A. Yu. Dmitriev and O. V. Astafiev, "A perspective on superconducting flux qubits", Applied Physics Letters 119 8, 080501 (2021).

[415] Prakash Murali, David C. McKay, Margaret Martonosi, and Ali Javadi-Abhari, "Software Mitigation of Crosstalk on Noisy Intermediate-Scale Quantum Computers", arXiv:2001.02826, (2020).

[416] Zhimin He, Lvzhou Li, Shenggen Zheng, Yongyao Li, and Haozhen Situ, "Variational quantum compiling with double Q-learning", New Journal of Physics 23 3, 033002 (2021).

[417] Samuel Yen-Chi Chen and Shinjae Yoo, "Federated Quantum Machine Learning", Entropy 23 4, 460 (2021).

[418] Atchade Parfait Adelomou, Elisabet Golobardes Ribe, and Xavier Vilasis Cardona, "Using the Parameterized Quantum Circuit combined with Variational-Quantum-Eigensolver (VQE) to create an Intelligent social workers' schedule problem solver", arXiv:2010.05863, (2020).

[419] Xiao Xiong, Nuttawut Kongsuwan, Yiming Lai, Ching Eng Png, Lin Wu, and Ortwin Hess, "Room-temperature plexcitonic strong coupling: Ultrafast dynamics for quantum applications", Applied Physics Letters 118 13, 130501 (2021).

[420] Maharshi Ray, Naresh Goud Boddu, Kishor Bharti, Leong-Chuan Kwek, and Adán Cabello, "Graph-theoretic approach to dimension witnessing", New Journal of Physics 23 3, 033006 (2021).

[421] Michael W. Swift, Hartwin Peelaers, Sai Mu, John J. L. Morton, and Chris G. Van de Walle, "First-principles calculations of hyperfine interaction, binding energy, and quadrupole coupling for shallow donors in silicon", npj Computational Mathematics 6, 181 (2020).

[422] Blake A. Wilson, Zhaxylyk A. Kudyshev, Alexander V. Kildishev, Sabre Kais, Vladimir M. Shalaev, and Alexandra Boltasseva, "Machine learning framework for quantum sampling of highly constrained, continuous optimization problems", Applied Physics Reviews 8 4, 041418 (2021).

[423] Matteo Piccolini, Farzam Nosrati, Giuseppe Compagno, Patrizia Livreri, Roberto Morandotti, and Rosario Lo Franco, "Entanglement Robustness via Spatial Deformation of Identical Particle Wave Functions", Entropy 23 6, 708 (2021).

[424] A. Chiesa, F. Petiziol, E. Macaluso, S. Wimberger, P. Santini, and S. Carretta, "Embedded quantum-error correction and controlled-phase gate for molecular spin qubits", AIP Advances 11 2, 025134 (2021).

[425] Martin Kliesch and Ingo Roth, "Theory of quantum system certification: a tutorial", arXiv:2010.05925, (2020).

[426] Rafael I. Nepomechie, "Bethe ansatz on a quantum computer?", arXiv:2010.01609, (2020).

[427] Casper Gyurik, Chris Cade, and Vedran Dunjko, "Towards quantum advantage via topological data analysis", arXiv:2005.02607, (2020).

[428] Prakash Verma, Lee Huntington, Marc P. Coons, Yukio Kawashima, Takeshi Yamazaki, and Arman Zaribafiyan, "Scaling up electronic structure calculations on quantum computers: The frozen natural orbital based method of increments", Journal of Chemical Physics 155 3, 034110 (2021).

[429] Kohdai Kuroiwa and Hayata Yamasaki, "General Quantum Resource Theories: Distillation, Formation and Consistent Resource Measures", Quantum 4, 355 (2020).

[430] Dominikus Brian and Xiang Sun, "Generalized quantum master equation: A tutorial review and recent advances", Chinese Journal of Chemical Physics 34 5, 497 (2021).

[431] Chien-Hung Cho, Chih-Yu Chen, Kuo-Chin Chen, Tsung-Wei Huang, Ming-Chien Hsu, Ning-Ping Cao, Bei Zeng, Seng-Ghee Tan, and Ching-Ray Chang, "Quantum computation: Algorithms and Applications", Chinese Journal of Physics 72, 248 (2021).

[432] Vincenzo Lordi and John M. Nichol, "Advances and opportunities in materials science for scalable quantum computing", MRS Bulletin 46 7, 589 (2021).

[433] P. Zhao, J. P. Likforman, H. Y. Li, J. Tao, T. Henner, Y. D. Lim, W. W. Seit, C. S. Tan, and L. Guidoni, "TSV-integrated surface electrode ion trap for scalable quantum information processing", Applied Physics Letters 118 12, 124003 (2021).

[434] Eric J. Bylaska, Duo Song, Nicholas P. Bauman, Karol Kowalski, Daniel Claudino, and Travis S. Humble, "Quantum Solvers for Plane-Wave Hamiltonians: Abridging Virtual Spaces Through the Optimization of Pairwise Correlations", Frontiers in Chemistry 9, 26 (2021).

[435] Harish J. Vallury, Michael A. Jones, Charles D. Hill, and Lloyd C. L. Hollenberg, "Quantum computed moments correction to variational estimates", Quantum 4, 373 (2020).

[436] Hai-Yang Ma, Dandan Guan, Shiyong Wang, Yaoyi Li, Canhua Liu, Hao Zheng, and Jin-Feng Jia, "Braiding Majorana zero mode in an electrically controllable way", Journal of Physics D Applied Physics 54 42, 424003 (2021).

[437] Hyeokjea Kwon and Joonwoo Bae, "A hybrid quantum-classical approach to mitigating measurement errors", arXiv:2003.12314, (2020).

[438] Huan-Yu Liu, Tai-Ping Sun, Yu-Chun Wu, and Guo-Ping Guo, "Variational Quantum Algorithms for the Steady States of Open Quantum Systems", Chinese Physics Letters 38 8, 080301 (2021).

[439] Klaus Kreger, Hans-Werner Schmidt, and Richard Hildner, "Tailoring the excited-state energy landscape in supramolecular nanostructures", Electronic Structure 3 2, 023001 (2021).

[440] Sheng-Jie Li, Jin-Min Liang, Shu-Qian Shen, and Ming Li, "Variational quantum algorithms for trace norms and their applications", Communications in Theoretical Physics 73 10, 105102 (2021).

[441] Dominik Hangleiter, "Sampling and the complexity of nature", arXiv:2012.07905, (2020).

[442] Ian MacCormack, Conor Delaney, Alexey Galda, Nidhi Aggarwal, and Prineha Narang, "Branching Quantum Convolutional Neural Networks", arXiv:2012.14439, (2020).

[443] Thomas Häner and Mathias Soeken, "Lowering the T-depth of Quantum Circuits By Reducing the Multiplicative Depth Of Logic Networks", arXiv:2006.03845, (2020).

[444] Erik Nielsen, Kenneth Rudinger, Timothy Proctor, Kevin Young, and Robin Blume-Kohout, "Efficient flexible characterization of quantum processors with nested error models", New Journal of Physics 23 9, 093020 (2021).

[445] Dan-Bo Zhang, Hongxi Xing, Hui Yan, Enke Wang, and Shi-Liang Zhu, "Selected topics of quantum computing for nuclear physics", arXiv:2011.01431, (2020).

[446] Srinivasan Arunachalam and Reevu Maity, "Quantum Boosting", arXiv:2002.05056, (2020).

[447] João Barata and Carlos A. Salgado, "A quantum strategy to compute the jet quenching parameter <inline-formula id="IEq1"><mml:math><mml:mover accent="true"><mml:mi>q</mml:mi><mml:mo stretchy="false">^</mml:mo></mml:mover></mml:math></inline-formula>", European Physical Journal C 81 10, 862 (2021).

[448] Nivedita Dey, Mrityunjay Ghosh, Subhra Samir kundu, and Amlan Chakrabarti, "QDLC -- The Quantum Development Life Cycle", arXiv:2010.08053, (2020).

[449] Martin Sandberg, Vivekananda P. Adiga, Markus Brink, Cihan Kurter, Conal Murray, Marinus Hopstaken, John Bruley, Jason S. Orcutt, and Hanhee Paik, "Investigating microwave loss of SiGe using superconducting transmon qubits", Applied Physics Letters 118 12, 124001 (2021).

[450] T. S. Mahesh, Deepak Khurana, V. R. Krithika, G. J. Sreejith, and C. S. Sudheer Kumar, "Star-topology registers: NMR and quantum information perspectives", Journal of Physics Condensed Matter 33 38, 383002 (2021).

[451] Junxu Li and Sabre Kais, "A universal quantum circuit design for periodical functions", New Journal of Physics 23 10, 103022 (2021).

[452] Evandro Chagas Ribeiro da Rosa and Bruno G. Taketani, "QSystem: bitwise representation for quantum circuit simulations", arXiv:2004.03560, (2020).

[453] P. Neveu, J. Clarke, M. R. Vanner, and E. Verhagen, "Preparation and verification of two-mode mechanical entanglement through pulsed optomechanical measurements", New Journal of Physics 23 2, 023026 (2021).

[454] Paolo Braccia, Filippo Caruso, and Leonardo Banchi, "How to enhance quantum generative adversarial learning of noisy information", New Journal of Physics 23 5, 053024 (2021).

[455] Ying-Jiun Chen, Markus Hoffmann, Bernd Zimmermann, Gustav Bihlmayer, Stefan Blügel, Claus M. Schneider, and Christian Tusche, "Quantum spin mixing in Dirac materials", Communications Physics 4 1, 179 (2021).

[456] William Cappelletti, Rebecca Erbanni, and Joaquín Keller, "Polyadic Quantum Classifier", arXiv:2007.14044, (2020).

[457] Xiao-Pei Yang, Zhi-Kun Han, Wen Zheng, Dong Lan, and Yang Yu, "The interference between a giant atom and an internal resonator", Communications in Theoretical Physics 73 11, 115104 (2021).

[458] S. D. Manko, D. N. Frolovtsev, and S. A. Magnitsky, "Simulation of Quantum Tomography Process of Biphoton Polarization States on a Quantum Computer", Moscow University Physics Bulletin 76 2, 97 (2021).

[459] Yutaka Shikano, Hiroshi C. Watanabe, Ken M. Nakanishi, and Yu-ya Ohnishi, "Post-Hartree-Fock method in quantum chemistry for quantum computer", European Physical Journal Special Topics 230 4, 1037 (2021).

[460] Runyao Duan, "Quantum Adiabatic Theorem Revisited", arXiv:2003.03063, (2020).

[461] Mingxia Huo and Ying Li, "Self-consistent tomography of temporally correlated errors", Communications in Theoretical Physics 73 7, 075101 (2021).

[462] Alexandria J. Moore, Yuchen Wang, Zixuan Hu, Sabre Kais, and Andrew M. Weiner, "Statistical approach to quantum phase estimation", New Journal of Physics 23 11, 113027 (2021).

[463] C. H. Valahu, A. M. Lawrence, S. Weidt, and W. K. Hensinger, "Robust entanglement by continuous dynamical decoupling of the J-coupling interaction", New Journal of Physics 23 11, 113012 (2021).

[464] Bhupesh Bishnoi, "Quantum Computation", arXiv:2006.02799, (2020).

[465] Kamal Choudhary, "Quantum computation for predicting electron and phonon properties of solids", Journal of Physics Condensed Matter 33 38, 385501 (2021).

[466] Indrakshi Raychowdhury, "Toward quantum simulating non-Abelian gauge theories", Indian Journal of Physics 95 8, 1681 (2021).

[467] Yidong Liao, Daniel Ebler, Feiyang Liu, and Oscar Dahlsten, "Quantum speed-up in global optimization of binary neural nets", New Journal of Physics 23 6, 063013 (2021).

[468] Thomas Gabor, Leo Sünkel, Fabian Ritz, Thomy Phan, Lenz Belzner, Christoph Roch, Sebastian Feld, and Claudia Linnhoff-Popien, "The Holy Grail of Quantum Artificial Intelligence: Major Challenges in Accelerating the Machine Learning Pipeline", arXiv:2004.14035, (2020).

[469] Nur R. Ayukaryana, Mohammad H. Fauzi, and Eddwi H. Hasdeo, "The quest and hope of Majorana zero modes in topological superconductor for fault-tolerant quantum computing: An introductory overview", American Institute of Physics Conference Series 2382 1, 020007 (2021).

[470] Kapil K. Sharma and Suprabhat Sinha, "Trade-off between Squashed Entanglement and Concurrence in Bipartite Quantum States", International Journal of Theoretical Physics 60 9, 3651 (2021).

[471] Leigh S. Martin, "Quantum feedback for measurement and control", arXiv:2004.09766, (2020).

[472] Dan-Yu Li, Ji Chu, Wen Zheng, Dong Lan, Jie Zhao, Shao-Xiong Li, Xin-Sheng Tan, and Yang Yu, "Universal quantum control based on parametric modulation in superconducting circuits", Chinese Physics B 30 7, 070308 (2021).

[473] Albert T. Schmitz and Sonika Johri, "A quantum solution for efficient use of symmetries in the simulation of many-body systems", npj Quantum Information 6, 2 (2020).

[474] Stephanie Law and Servaas Kokkelmans, "Materials for quantum technologies: Computing, information, and sensing", Journal of Applied Physics 129 14, 140401 (2021).

[475] Samudra Dasgupta and Travis S. Humble, "Characterizing the Stability of NISQ Devices", arXiv:2008.09612, (2020).

[476] Tongyang Li, Chunhao Wang, Shouvanik Chakrabarti, and Xiaodi Wu, "Sublinear classical and quantum algorithms for general matrix games", arXiv:2012.06519, (2020).

[477] Qing Guo and Ping-Xing Chen, "Optimization of VQE-UCC algorithm based on spin state symmetry", Frontiers in Physics 9, 554 (2021).

[478] Evandro Chagas Ribeiro da Rosa and Rafael de Santiago, "Classical and Quantum Data Interaction in Programming Languages: A Runtime Architecture", arXiv:2006.00131, (2020).

[479] Inés de Vega, "The quantum dynamical map of the spin boson model", arXiv:2001.04236, (2020).

[480] Tanvi P. Gujarati, Tyler Takeshita, Andreas Hintennach, and Eunseok Lee, "A Heuristic Quantum-Classical Algorithm for Modeling Substitutionally Disordered Binary Crystalline Materials", arXiv:2004.00957, (2020).

[481] Aonan Zhang, Hao Zhan, Junjie Liao, Kaimin Zheng, Tao Jiang, Minghao Mi, Penghui Yao, and Lijian Zhang, "Quantum verification of NP problems with single photons and linear optics", Light: Science & Applications 10 1, 169 (2021).

[482] Rodrigo S. Sousa, Priscila G. M. dos Santos, Tiago M. L. Veras, Wilson R. de Oliveira, and Adenilton J. da Silva, "Parametric Probabilistic Quantum Memory", arXiv:2001.04798, (2020).

[483] Minsung Kim, Davide Venturelli, and Kyle Jamieson, "Leveraging Quantum Annealing for Large MIMO Processing in Centralized Radio Access Networks", arXiv:2001.04014, (2020).

[484] Jirayu Supasil, Poramet Pathumsoot, and Sujin Suwanna, "Simulation of implementable quantum-assisted genetic algorithm", Journal of Physics Conference Series 1719 1, 012102 (2021).

[485] Ziwen Pan and Ivan B. Djordjevic, "An Overview of Geometrical Optics Restricted Quantum Key Distribution", Entropy 23 8, 1003 (2021).

[486] Mark Hodson, Brendan Ruck, Hugh Ong, Stefan Dulman, and David Garvin, "Finding the optimal Nash equilibrium in a discrete Rosenthal congestion game using the Quantum Alternating Operator Ansatz", arXiv:2008.09505, (2020).

[487] Jasvith Raj Basani and Aranya B Bhattacherjee, "Continuous-Variable Deep Quantum Neural Networks for Flexible Learning of Structured Classical Information", arXiv:2006.10927, (2020).

[488] Narayanan Rengaswamy, "Classical Coding Approaches to Quantum Applications", arXiv:2004.06834, (2020).

[489] Shaopeng Zhu, Shih-Han Hung, Shouvanik Chakrabarti, and Xiaodi Wu, "On the Principles of Differentiable Quantum Programming Languages", arXiv:2004.01122, (2020).

[490] Pedro Rivero, Ian C. Cloët, and Zack Sullivan, "An optimal quantum sampling regression algorithm for variational eigensolving in the low qubit number regime", arXiv:2012.02338, (2020).

[491] Songyang Wu, Wenqi Sun, Qingle Wang, Ronghua Che, Meng Hu, Zhiguo Ding, and Xue Xue, "A Secure Quantum Protocol for Anonymous One-Vote Veto Voting", IEEE Access 9, 146841 (2021).

[492] Chen Lin, YiChen Wang, JinZhao Wu, and GuoWu Yang, "Efficient Decoding Scheme of Non-Uniform Concatenation Quantum Code with Deep Neural Network", International Journal of Theoretical Physics 60 3, 848 (2021).

[493] Luis Alberto Aranda, Oscar Ruano, Francisco Garcia-Herrero, and Juan Antonio Maestro, "Reliability Analysis of ASIC Designs With Xilinx SRAM-Based FPGAs", IEEE Access 9, 140676 (2021).

[494] Rafael Cação, Lucas Cortez, Ismael de Farias, Ernee Kozyreff, Jalil Khatibi Moqadam, and Renato Portugal, "Quantum Walk on the Generalized Birkhoff Polytope Graph", Entropy 23 10, 1239 (2021).

[495] Arit Kumar Bishwas, Ashish Mani, and Vasile Palade, "Parts of Speech Tagging in NLP: Runtime Optimization with Quantum Formulation and ZX Calculus", arXiv:2007.10328, (2020).

[496] Jirawat Saiphet, Sujin Suwanna, Thiparat Chotibut, and Areeya Chantasri, "Quantum approximate optimization and k-means algorithms for data clustering", Journal of Physics Conference Series 1719 1, 012100 (2021).

[497] Minsung Kim, Davide Venturelli, and Kyle Jamieson, "Towards Hybrid Classical-Quantum Computation Structures in Wirelessly-Networked Systems", arXiv:2010.00682, (2020).

[498] H. W. L. Naus and H. Polinder, "Bell inequality violation on small NISQ computers", arXiv:2006.13794, (2020).

[499] Roberto Baginski B. Santos and Vinicius S. F. Lisboa, "Coupling Modifies the Quantum Fluctuations of Entangled Oscillators", Brazilian Journal of Physics 51 3, 559 (2021).

[500] Samson Wang, Enrico Fontana, M. Cerezo, Kunal Sharma, Akira Sone, Lukasz Cincio, and Patrick J. Coles, "Noise-induced barren plateaus in variational quantum algorithms", Nature Communications 12, 6961 (2021).

[501] Sepehr Ebadi, Tout T. Wang, Harry Levine, Alexander Keesling, Giulia Semeghini, Ahmed Omran, Dolev Bluvstein, Rhine Samajdar, Hannes Pichler, Wen Wei Ho, Soonwon Choi, Subir Sachdev, Markus Greiner, Vladan Vuletić, and Mikhail D. Lukin, "Quantum phases of matter on a 256-atom programmable quantum simulator", Nature 595 7866, 227 (2021).

[502] J. M. Arrazola, V. Bergholm, K. Brádler, T. R. Bromley, M. J. Collins, I. Dhand, A. Fumagalli, T. Gerrits, A. Goussev, L. G. Helt, J. Hundal, T. Isacsson, R. B. Israel, J. Izaac, S. Jahangiri, R. Janik, N. Killoran, S. P. Kumar, J. Lavoie, A. E. Lita, D. H. Mahler, M. Menotti, B. Morrison, S. W. Nam, L. Neuhaus, H. Y. Qi, N. Quesada, A. Repingon, K. K. Sabapathy, M. Schuld, D. Su, J. Swinarton, A. Száva, K. Tan, P. Tan, V. D. Vaidya, Z. Vernon, Z. Zabaneh, and Y. Zhang, "Quantum circuits with many photons on a programmable nanophotonic chip", Nature 591 7848, 54 (2021).

[503] Daniel Stilck França and Raul García-Patrón, "Limitations of optimization algorithms on noisy quantum devices", Nature Physics 17 11, 1221 (2021).

[504] Senrui Chen, Wenjun Yu, Pei Zeng, and Steven T. Flammia, "Robust Shadow Estimation", PRX Quantum 2 3, 030348 (2021).

[505] Joseph Vovrosh, Kiran E. Khosla, Sean Greenaway, Christopher Self, M. S. Kim, and Johannes Knolle, "Simple mitigation of global depolarizing errors in quantum simulations", Physical Review E 104 3, 035309 (2021).

[506] Oleksandr Kyriienko, Annie E. Paine, and Vincent E. Elfving, "Solving nonlinear differential equations with differentiable quantum circuits", Physical Review A 103 5, 052416 (2021).

[507] Xiao Xue, Bishnu Patra, Jeroen P. G. van Dijk, Nodar Samkharadze, Sushil Subramanian, Andrea Corna, Brian Paquelet Wuetz, Charles Jeon, Farhana Sheikh, Esdras Juarez-Hernandez, Brando Perez Esparza, Huzaifa Rampurawala, Brent Carlton, Surej Ravikumar, Carlos Nieva, Sungwon Kim, Hyung-Jin Lee, Amir Sammak, Giordano Scappucci, Menno Veldhorst, Fabio Sebastiano, Masoud Babaie, Stefano Pellerano, Edoardo Charbon, and Lieven M. K. Vandersypen, "CMOS-based cryogenic control of silicon quantum circuits", Nature 593 7858, 205 (2021).

[508] Mikkel V. Larsen, Xueshi Guo, Casper R. Breum, Jonas S. Neergaard-Nielsen, and Ulrik L. Andersen, "Deterministic multi-mode gates on a scalable photonic quantum computing platform", Nature Physics 17 9, 1018 (2021).

[509] Xiao Yuan, Jinzhao Sun, Junyu Liu, Qi Zhao, and You Zhou, "Quantum Simulation with Hybrid Tensor Networks", Physical Review Letters 127 4, 040501 (2021).

[510] Danny Paulson, Luca Dellantonio, Jan F. Haase, Alessio Celi, Angus Kan, Andrew Jena, Christian Kokail, Rick van Bijnen, Karl Jansen, Peter Zoller, and Christine A. Muschik, "Simulating 2D Effects in Lattice Gauge Theories on a Quantum Computer", PRX Quantum 2 3, 030334 (2021).

[511] Yuval Baum, Mirko Amico, Sean Howell, Michael Hush, Maggie Liuzzi, Pranav Mundada, Thomas Merkh, Andre R. R. Carvalho, and Michael J. Biercuk, "Experimental Deep Reinforcement Learning for Error-Robust Gate-Set Design on a Superconducting Quantum Computer", PRX Quantum 2 4, 040324 (2021).

[512] Yasar Y. Atas, Jinglei Zhang, Randy Lewis, Amin Jahanpour, Jan F. Haase, and Christine A. Muschik, "SU(2) hadrons on a quantum computer via a variational approach", Nature Communications 12, 6499 (2021).

[513] Jonathan Wurtz and Peter Love, "MaxCut quantum approximate optimization algorithm performance guarantees for p >1", Physical Review A 103 4, 042612 (2021).

[514] Jinzhao Sun, Xiao Yuan, Takahiro Tsunoda, Vlatko Vedral, Simon C. Benjamin, and Suguru Endo, "Mitigating Realistic Noise in Practical Noisy Intermediate-Scale Quantum Devices", Physical Review Applied 15 3, 034026 (2021).

[515] Benjamin Nachman, Davide Provasoli, Wibe A. de Jong, and Christian W. Bauer, "Quantum Algorithm for High Energy Physics Simulations", Physical Review Letters 126 6, 062001 (2021).

[516] F. Lecocq, F. Quinlan, K. Cicak, J. Aumentado, S. A. Diddams, and J. D. Teufel, "Control and readout of a superconducting qubit using a photonic link", Nature 591 7851, 575 (2021).

[517] Caterina Vigliar, Stefano Paesani, Yunhong Ding, Jeremy C. Adcock, Jianwei Wang, Sam Morley-Short, Davide Bacco, Leif K. Oxenløwe, Mark G. Thompson, John G. Rarity, and Anthony Laing, "Error-protected qubits in a silicon photonic chip", Nature Physics 17 10, 1137 (2021).

[518] Kenneth R. Brown, John Chiaverini, Jeremy M. Sage, and Hartmut Häffner, "Materials challenges for trapped-ion quantum computers", Nature Reviews Materials 6 10, 892 (2021).

[519] Guillermo García-Pérez, Matteo A. C. Rossi, Boris Sokolov, Francesco Tacchino, Panagiotis Kl. Barkoutsos, Guglielmo Mazzola, Ivano Tavernelli, and Sabrina Maniscalco, "Learning to Measure: Adaptive Informationally Complete Generalized Measurements for Quantum Algorithms", PRX Quantum 2 4, 040342 (2021).

[520] Matteo Ippoliti, Kostyantyn Kechedzhi, Roderich Moessner, S. L. Sondhi, and Vedika Khemani, "Many-Body Physics in the NISQ Era: Quantum Programming a Discrete Time Crystal", PRX Quantum 2 3, 030346 (2021).

[521] S. E. Rasmussen, K. S. Christensen, S. P. Pedersen, L. B. Kristensen, T. Bækkegaard, N. J. S. Loft, and N. T. Zinner, "Superconducting Circuit Companion—an Introduction with Worked Examples", PRX Quantum 2 4, 040204 (2021).

[522] Benjamin Hall, Alessandro Roggero, Alessandro Baroni, and Joseph Carlson, "Simulation of collective neutrino oscillations on a quantum computer", Physical Review D 104 6, 063009 (2021).

[523] João Barata, Niklas Mueller, Andrey Tarasov, and Raju Venugopalan, "Single-particle digitization strategy for quantum computation of a ϕ<SUP>4</SUP> scalar field theory", Physical Review A 103 4, 042410 (2021).

[524] Joseph Vovrosh and Johannes Knolle, "Confinement and entanglement dynamics on a digital quantum computer", Scientific Reports 11, 11577 (2021).

[525] Yong-Xin Yao, Niladri Gomes, Feng Zhang, Cai-Zhuang Wang, Kai-Ming Ho, Thomas Iadecola, and Peter P. Orth, "Adaptive Variational Quantum Dynamics Simulations", PRX Quantum 2 3, 030307 (2021).

[526] Yuxuan Du, Min-Hsiu Hsieh, Tongliang Liu, Shan You, and Dacheng Tao, "Learnability of Quantum Neural Networks", PRX Quantum 2 4, 040337 (2021).

[527] Ravitej Uppu, Leonardo Midolo, Xiaoyan Zhou, Jacques Carolan, and Peter Lodahl, "Quantum-dot-based deterministic photon-emitter interfaces for scalable photonic quantum technology", Nature Nanotechnology 16 12, 1308 (2021).

[528] Barnaby van Straaten and Bálint Koczor, "Measurement Cost of Metric-Aware Variational Quantum Algorithms", PRX Quantum 2 3, 030324 (2021).

[529] Hai-Ling Liu, Yu-Sen Wu, Lin-Chun Wan, Shi-Jie Pan, Su-Juan Qin, Fei Gao, and Qiao-Yan Wen, "Variational quantum algorithm for the Poisson equation", Physical Review A 104 2, 022418 (2021).

[530] Tobias Haug, Kishor Bharti, and M. S. Kim, "Capacity and Quantum Geometry of Parametrized Quantum Circuits", PRX Quantum 2 4, 040309 (2021).

[531] Quntao Zhuang, "Quantum Ranging with Gaussian Entanglement", Physical Review Letters 126 24, 240501 (2021).

[532] Kishor Bharti and Tobias Haug, "Iterative quantum-assisted eigensolver", Physical Review A 104 5, L050401 (2021).

[533] Enrico Fontana, Nathan Fitzpatrick, David Muñoz Ramo, Ross Duncan, and Ivan Rungger, "Evaluating the noise resilience of variational quantum algorithms", Physical Review A 104 2, 022403 (2021).

[534] Emma Lomonte, Martin A. Wolff, Fabian Beutel, Simone Ferrari, Carsten Schuck, Wolfram H. P. Pernice, and Francesco Lenzini, "Single-photon detection and cryogenic reconfigurability in lithium niobate nanophotonic circuits", Nature Communications 12, 6847 (2021).

[535] Jonah Kudler-Flam, Vladimir Narovlansky, and Shinsei Ryu, "Distinguishing Random and Black Hole Microstates", PRX Quantum 2 4, 040340 (2021).

[536] Juneseo Lee, Alicia B. Magann, Herschel A. Rabitz, and Christian Arenz, "Progress toward favorable landscapes in quantum combinatorial optimization", Physical Review A 104 3, 032401 (2021).

[537] Sergey Bravyi, David Gosset, and Ramis Movassagh, "Classical algorithms for quantum mean values", Nature Physics 17 3, 337 (2021).

[538] Olivia Di Matteo, Anna McCoy, Peter Gysbers, Takayuki Miyagi, R. M. Woloshyn, and Petr Navrátil, "Improving Hamiltonian encodings with the Gray code", Physical Review A 103 4, 042405 (2021).

[539] Jonah Kudler-Flam, "Relative Entropy of Random States and Black Holes", Physical Review Letters 126 17, 171603 (2021).

[540] Moritz Reh, Markus Schmitt, and Martin Gärttner, "Time-Dependent Variational Principle for Open Quantum Systems with Artificial Neural Networks", Physical Review Letters 127 23, 230501 (2021).

[541] Tatiana A. Bespalova and Oleksandr Kyriienko, "Hamiltonian Operator Approximation for Energy Measurement and Ground-State Preparation", PRX Quantum 2 3, 030318 (2021).

[542] John S. Van Dyke, George S. Barron, Nicholas J. Mayhall, Edwin Barnes, and Sophia E. Economou, "Preparing Bethe Ansatz Eigenstates on a Quantum Computer", PRX Quantum 2 4, 040329 (2021).

[543] George S. Barron, Bryan T. Gard, Orien J. Altman, Nicholas J. Mayhall, Edwin Barnes, and Sophia E. Economou, "Preserving Symmetries for Variational Quantum Eigensolvers in the Presence of Noise", Physical Review Applied 16 3, 034003 (2021).

[544] Jonas Richter and Arijeet Pal, "Simulating Hydrodynamics on Noisy Intermediate-Scale Quantum Devices with Random Circuits", Physical Review Letters 126 23, 230501 (2021).

[545] Connor T. Hann, Gideon Lee, S. M. Girvin, and Liang Jiang, "Resilience of Quantum Random Access Memory to Generic Noise", PRX Quantum 2 2, 020311 (2021).

[546] Yuta Shingu, Yuya Seki, Shohei Watabe, Suguru Endo, Yuichiro Matsuzaki, Shiro Kawabata, Tetsuro Nikuni, and Hideaki Hakoshima, "Boltzmann machine learning with a variational quantum algorithm", Physical Review A 104 3, 032413 (2021).

[547] Andre R. R. Carvalho, Harrison Ball, Michael J. Biercuk, Michael R. Hush, and Felix Thomsen, "Error-Robust Quantum Logic Optimization Using a Cloud Quantum Computer Interface", Physical Review Applied 15 6, 064054 (2021).

[548] Stewart Morawetz, Isaac J. S. De Vlugt, Juan Carrasquilla, and Roger G. Melko, "U(1)-symmetric recurrent neural networks for quantum state reconstruction", Physical Review A 104 1, 012401 (2021).

[549] Yuki Sato, Ruho Kondo, Satoshi Koide, Hideki Takamatsu, and Nobuyuki Imoto, "Variational quantum algorithm based on the minimum potential energy for solving the Poisson equation", Physical Review A 104 5, 052409 (2021).

[550] Andrea Mari, Nathan Shammah, and William J. Zeng, "Extending quantum probabilistic error cancellation by noise scaling", Physical Review A 104 5, 052607 (2021).

[551] Nicholas H. Stair and Francesco A. Evangelista, "Simulating Many-Body Systems with a Projective Quantum Eigensolver", PRX Quantum 2 3, 030301 (2021).

[552] Prasanna Date and Thomas Potok, "Adiabatic quantum linear regression", Scientific Reports 11, 21905 (2021).

[553] Sivaprasad Omanakuttan and Arul Lakshminarayan, "Quantum walks with quantum chaotic coins: Loschmidt echo, classical limit, and thermalization", Physical Review E 103 1, 012207 (2021).

[554] Zhide Lu, Pei-Xin Shen, and Dong-Ling Deng, "Markovian Quantum Neuroevolution for Machine Learning", Physical Review Applied 16 4, 044039 (2021).

[555] Hideaki Hakoshima, Yuichiro Matsuzaki, and Suguru Endo, "Relationship between costs for quantum error mitigation and non-Markovian measures", Physical Review A 103 1, 012611 (2021).

[556] Yongdan Yang, Bing-Nan Lu, and Ying Li, "Accelerated Quantum Monte Carlo with Mitigated Error on Noisy Quantum Computer", PRX Quantum 2 4, 040361 (2021).

[557] Xiu Gu, Jorge Fernández-Pendás, Pontus Vikstâl, Tahereh Abad, Christopher Warren, Andreas Bengtsson, Giovanna Tancredi, Vitaly Shumeiko, Jonas Bylander, Göran Johansson, and Anton Frisk Kockum, "Fast Multiqubit Gates through Simultaneous Two-Qubit Gates", PRX Quantum 2 4, 040348 (2021).

[558] Changhun Oh, Kyungjoo Noh, Bill Fefferman, and Liang Jiang, "Classical simulation of lossy boson sampling using matrix product operators", Physical Review A 104 2, 022407 (2021).

[559] Haoran Liao, Ian Convy, William J. Huggins, and K. Birgitta Whaley, "Robust in practice: Adversarial attacks on quantum machine learning", Physical Review A 103 4, 042427 (2021).

[560] Hongxiang Chen, Max Nusspickel, Jules Tilly, and George H. Booth, "Variational quantum eigensolver for dynamic correlation functions", Physical Review A 104 3, 032405 (2021).

[561] Kenji Kubo, Yuya O. Nakagawa, Suguru Endo, and Shota Nagayama, "Variational quantum simulations of stochastic differential equations", Physical Review A 103 5, 052425 (2021).

[562] Bartosz Regula, Ludovico Lami, Giovanni Ferrari, and Ryuji Takagi, "Operational Quantification of Continuous-Variable Quantum Resources", Physical Review Letters 126 11, 110403 (2021).

[563] Rebecca Hicks, Christian W. Bauer, and Benjamin Nachman, "Readout rebalancing for near-term quantum computers", Physical Review A 103 2, 022407 (2021).

[564] Shunji Matsuura, Samantha Buck, Valentin Senicourt, and Arman Zaribafiyan, "Variationally scheduled quantum simulation", Physical Review A 103 5, 052435 (2021).

[565] Adam Winick, Joel J. Wallman, and Joseph Emerson, "Simulating and Mitigating Crosstalk", Physical Review Letters 126 23, 230502 (2021).

[566] Sai Li, Bao-Jie Liu, Zhongchu Ni, Libo Zhang, Zheng-Yuan Xue, Jian Li, Fei Yan, Yuanzhen Chen, Song Liu, Man-Hong Yung, Yuan Xu, and Dapeng Yu, "Superrobust Geometric Control of a Superconducting Circuit", Physical Review Applied 16 6, 064003 (2021).

[567] Shuai-Feng Guo, Feng Chen, Qi Liu, Ming Xue, Jun-Jie Chen, Jia-Hao Cao, Tian-Wei Mao, Meng Khoon Tey, and Li You, "Faster State Preparation across Quantum Phase Transition Assisted by Reinforcement Learning", Physical Review Letters 126 6, 060401 (2021).

[568] Eli Chertkov and Bryan K. Clark, "Motif magnetism and quantum many-body scars", Physical Review B 104 10, 104410 (2021).

[569] Alexander Engel, Graeme Smith, and Scott E. Parker, "Linear embedding of nonlinear dynamical systems and prospects for efficient quantum algorithms", Physics of Plasmas 28 6, 062305 (2021).

[570] Daniel A. Paz and Mohammad F. Maghrebi, "Driven-dissipative Ising model: An exact field-theoretical analysis", Physical Review A 104 2, 023713 (2021).

[571] Junyu Liu and Yue-Zhou Li, "Quantum simulation of cosmic inflation", Physical Review D 104 8, 086013 (2021).

[572] Samuel Mugel, Mario Abad, Miguel Bermejo, Javier Sánchez, Enrique Lizaso, and Román Orús, "Hybrid quantum investment optimization with minimal holding period", Scientific Reports 11, 19587 (2021).

[573] Cillian Harney, Leonardo Banchi, and Stefano Pirandola, "Ultimate limits of thermal pattern recognition", Physical Review A 103 5, 052406 (2021).

[574] Megan L. Dahlhauser and Travis S. Humble, "Modeling noisy quantum circuits using experimental characterization", Physical Review A 103 4, 042603 (2021).

[575] Xiao-Ming Zhang, Weicheng Kong, Muhammad Usman Farooq, Man-Hong Yung, Guoping Guo, and Xin Wang, "Generic detection-based error mitigation using quantum autoencoders", Physical Review A 103 4, L040403 (2021).

[576] Albert Benseny and Klaus Mølmer, "Adiabatic theorem revisited: The unexpectedly good performance of adiabatic passage", Physical Review A 103 6, 062215 (2021).

[577] Kevin C. Smith, Aniruddha Bhattacharya, and David J. Masiello, "Exact k -body representation of the Jaynes-Cummings interaction in the dressed basis: Insight into many-body phenomena with light", Physical Review A 104 1, 013707 (2021).

[578] Bharath Hebbe Madhusudhana, Sebastian Scherg, Thomas Kohlert, Immanuel Bloch, and Monika Aidelsburger, "Benchmarking a Novel Efficient Numerical Method for Localized 1D Fermi-Hubbard Systems on a Quantum Simulator", PRX Quantum 2 4, 040325 (2021).

[579] Kenneth Robbins and Peter J. Love, "Benchmarking near-term quantum devices with the variational quantum eigensolver and the Lipkin-Meshkov-Glick model", Physical Review A 104 2, 022412 (2021).

[580] John S. Van Dyke, Yadav P. Kandel, Haifeng Qiao, John M. Nichol, Sophia E. Economou, and Edwin Barnes, "Protecting quantum information in quantum dot spin chains by driving exchange interactions periodically", Physical Review B 103 24, 245303 (2021).

[581] Davide Bacco, Jacob F. F. Bulmer, Manuel Erhard, Marcus Huber, and Stefano Paesani, "Proposal for practical multidimensional quantum networks", Physical Review A 104 5, 052618 (2021).

[582] Laszlo Gyongyosi and Sandor Imre, "Scalable distributed gate-model quantum computers", Scientific Reports 11, 5172 (2021).

[583] Yi-Jun Chang, Yong-Heng Lu, Yao Wang, Xiao-Yun Xu, Wen-Hao Zhou, Wen-Hao Cui, Xiao-Wei Wang, Jun Gao, Lu-Feng Qiao, and Xian-Min Jin, "Symmetry-Induced Error Filtering in a Photonic Lieb Lattice", Physical Review Letters 126 11, 110501 (2021).

[584] Élie Genois, Jonathan A. Gross, Agustin Di Paolo, Noah J. Stevenson, Gerwin Koolstra, Akel Hashim, Irfan Siddiqi, and Alexandre Blais, "Quantum-Tailored Machine-Learning Characterization of a Superconducting Qubit", PRX Quantum 2 4, 040355 (2021).

[585] Matthew Otten, Keshav Kapoor, A. Barış Özgüler, Eric T. Holland, James B. Kowalkowski, Yuri Alexeev, and Adam L. Lyon, "Impacts of noise and structure on quantum information encoded in a quantum memory", Physical Review A 104 1, 012605 (2021).

[586] Vincent Paul Su, "Variational preparation of the thermofield double state of the Sachdev-Ye-Kitaev model", Physical Review A 104 1, 012427 (2021).

[587] Zbigniew Puchała, Kamil Korzekwa, Roberto Salazar, Paweł Horodecki, and Karol Życzkowski, "Dephasing superchannels", Physical Review A 104 5, 052611 (2021).

[588] Ramin Ayanzadeh, John Dorband, Milton Halem, and Tim Finin, "Multi-qubit correction for quantum annealers", Scientific Reports 11, 16119 (2021).

[589] Susan M. Mniszewski, Pavel A. Dub, Sergei Tretiak, Petr M. Anisimov, Yu Zhang, and Christian F. A. Negre, "Reduction of the molecular hamiltonian matrix using quantum community detection", Scientific Reports 11, 4099 (2021).

[590] Simon Panyella Pedersen and Nikolaj Thomas Zinner, "Lattice gauge theory and dynamical quantum phase transitions using noisy intermediate-scale quantum devices", Physical Review B 103 23, 235103 (2021).

[591] Konstantinos Georgopoulos, Clive Emary, and Paolo Zuliani, "Comparison of quantum-walk implementations on noisy intermediate-scale quantum computers", Physical Review A 103 2, 022408 (2021).

[592] Ludovico Lami, "Quantum data hiding with continuous-variable systems", Physical Review A 104 5, 052428 (2021).

[593] Andrey Kardashin, Anastasiia Pervishko, Jacob Biamonte, and Dmitry Yudin, "Numerical hardware-efficient variational quantum simulation of a soliton solution", Physical Review A 104 2, L020402 (2021).

[594] Dylan Lewis, Asmae Benhemou, Natasha Feinstein, Leonardo Banchi, and Sougato Bose, "Optimal Quantum Spatial Search with One-Dimensional Long-Range Interactions", Physical Review Letters 126 24, 240502 (2021).

[595] Nicolas Schwaller, Marc-André Dupertuis, and Clément Javerzac-Galy, "Evidence of the entanglement constraint on wave-particle duality using the IBM Q quantum computer", Physical Review A 103 2, 022409 (2021).

[596] Piotr Szańkowski, "Measuring trajectories of environmental noise", Physical Review A 104 2, 022202 (2021).

[597] Hong-Bin Chen and Yueh-Nan Chen, "Canonical Hamiltonian ensemble representation of dephasing dynamics and the impact of thermal fluctuations on quantum-to-classical transition", Scientific Reports 11, 10046 (2021).

[598] Davide Girolami and Fabio Anzà, "Quantifying the Difference between Many-Body Quantum States", Physical Review Letters 126 17, 170502 (2021).

[599] Jelmer J. Renema, Hui Wang, Jian Qin, Xiang You, Chaoyang Lu, and Jianwei Pan, "Sample-efficient benchmarking of multiphoton interference on a boson sampler in the sparse regime", Physical Review A 103 2, 023722 (2021).

[600] Supanut Thanasilp, Jirawat Tangpanitanon, Marc-Antoine Lemonde, Ninnat Dangniam, and Dimitris G. Angelakis, "Quantum supremacy and quantum phase transitions", Physical Review B 103 16, 165132 (2021).

[601] Yifei Huang and Peter Love, "Feynman-path-type simulation using stabilizer projector decomposition of unitaries", Physical Review A 103 2, 022428 (2021).

[602] Yuanhao Li, Yangyang Fei, Weilong Wang, Xiangdong Meng, Hong Wang, Qianheng Duan, and Zhi Ma, "Quantum random number generator using a cloud superconducting quantum computer based on source-independent protocol", Scientific Reports 11, 23873 (2021).

[603] Davide Rattacaso, Gianluca Passarelli, Antonio Mezzacapo, Procolo Lucignano, and Rosario Fazio, "Optimal parent Hamiltonians for time-dependent states", Physical Review A 104 2, 022611 (2021).

[604] Nathan Eli Miller and Saibal Mukhopadhyay, "A quantum Hopfield associative memory implemented on an actual quantum processor", Scientific Reports 11, 23391 (2021).

[605] Yihong Zhang, Yifan Tang, You Zhou, and Xiongfeng Ma, "Efficient entanglement generation and detection of generalized stabilizer states", Physical Review A 103 5, 052426 (2021).

[606] Lucas Kocia and Mohan Sarovar, "Classical simulation of quantum circuits using fewer Gaussian eliminations", Physical Review A 103 2, 022603 (2021).

[607] Yoshifumi Nakata, Eyuri Wakakuwa, and Hayata Yamasaki, "One-shot quantum error correction of classical and quantum information", Physical Review A 104 1, 012408 (2021).

[608] Matthew Brooks and Charles Tahan, "Hybrid Exchange-Measurement-Based Qubit Operations in Semiconductor Double-Quantum-Dot Qubits", Physical Review Applied 16 6, 064019 (2021).

[609] Guillermo González, Rahul Trivedi, and J. Ignacio Cirac, "Quantum algorithms for powering stable Hermitian matrices", Physical Review A 103 6, 062420 (2021).

[610] Raja Selvarajan, Vivek Dixit, Xingshan Cui, Travis S. Humble, and Sabre Kais, "Prime factorization using quantum variational imaginary time evolution", Scientific Reports 11, 20835 (2021).

[611] Sam McArdle, "Learning from Physics Experiments with Quantum Computers: Applications in Muon Spectroscopy", PRX Quantum 2 2, 020349 (2021).

[612] Boaz Barak, "Work with what you've got", Nature Physics 17 3, 295 (2021).

[613] Aida Ahmadzadegan, Petar Simidzija, Ming Li, and Achim Kempf, "Neural networks can learn to utilize correlated auxiliary noise", Scientific Reports 11, 21624 (2021).

[614] John P. Philbin and Prineha Narang, "Computational Materials Insights Into Solid-State Multiqubit Systems", PRX Quantum 2 3, 030102 (2021).

[615] J. H. Béjanin, C. T. Earnest, Y. R. Sanders, and M. Mariantoni, "Resonant Coupling Parameter Estimation with Superconducting Qubits", PRX Quantum 2 4, 040343 (2021).

[616] Wooyeong Song, Youngrong Lim, Hyukjoon Kwon, Gerardo Adesso, Marcin Wieśniak, Marcin Pawłowski, Jaewan Kim, and Jeongho Bang, "Quantum secure learning with classical samples", Physical Review A 103 4, 042409 (2021).

[617] Mun Dae Kim, "Circulator function in a Josephson junction circuit and braiding of Majorana zero modes", Scientific Reports 11, 1826 (2021).

[618] Chunfeng Huang, Tianyu Huang, Qianyu Lin, and Kejin Wei, "Blinding quantum computation using alternative sources", Physical Review A 104 1, 012614 (2021).

[619] Yao Xiao, Shahin Nazarian, and Paul Bogdan, "A stochastic quantum program synthesis framework based on Bayesian optimization", Scientific Reports 11, 13138 (2021).

[620] C. -Y. Pan, M. Hao, N. Barraza, E. Solano, and F. Albarrán-Arriagada, "Experimental semi-autonomous eigensolver using reinforcement learning", Scientific Reports 11, 12241 (2021).

[621] Paulina Lewandowska, Aleksandra Krawiec, Ryszard Kukulski, Łukasz Pawela, and Zbigniew Puchała, "On the optimal certification of von Neumann measurements", Scientific Reports 11, 3623 (2021).

[622] Aleksandra Krawiec, Řukasz Pawela, and Zbigniew Puchała, "Excluding false negative error in certification of quantum channels", Scientific Reports 11, 21716 (2021).

[623] Jacob Chevalier Drori, Yordan S. Yordanov, Thierry Ferrus, Matthew Applegate, and Crispin H. W. Barnes, "Invariant subspaces of two-qubit quantum gates and their application in the verification of quantum computers", Physical Review A 104 5, 052619 (2021).

[624] Wei-Jia Huang, Wei-Chen Chien, Chien-Hung Cho, Che-Chun Huang, Tsung-Wei Huang, Seng Ghee Tan, C. Cao, Bei Zeng, and Ching-Ray Chang, "Phase analysis on the error scaling of entangled qubits in a 53-qubit system", Scientific Reports 11, 14491 (2021).

[625] Alexandre Blais, Arne L. Grimsmo, S. M. Girvin, and Andreas Wallraff, "Circuit quantum electrodynamics", Reviews of Modern Physics 93 2, 025005 (2021).

[626] C. Monroe, W. C. Campbell, L. -M. Duan, Z. -X. Gong, A. V. Gorshkov, P. W. Hess, R. Islam, K. Kim, N. M. Linke, G. Pagano, P. Richerme, C. Senko, and N. Y. Yao, "Programmable quantum simulations of spin systems with trapped ions", Reviews of Modern Physics 93 2, 025001 (2021).

[627] Matteo Ippoliti, Michael J. Gullans, Sarang Gopalakrishnan, David A. Huse, and Vedika Khemani, "Entanglement Phase Transitions in Measurement-Only Dynamics", Physical Review X 11 1, 011030 (2021).

[628] Youngkyu Sung, Leon Ding, Jochen Braumüller, Antti Vepsäläinen, Bharath Kannan, Morten Kjaergaard, Ami Greene, Gabriel O. Samach, Chris McNally, David Kim, Alexander Melville, Bethany M. Niedzielski, Mollie E. Schwartz, Jonilyn L. Yoder, Terry P. Orlando, Simon Gustavsson, and William D. Oliver, "Realization of High-Fidelity CZ and Z Z -Free iSWAP Gates with a Tunable Coupler", Physical Review X 11 2, 021058 (2021).

[629] Vera von Burg, Guang Hao Low, Thomas Häner, Damian S. Steiger, Markus Reiher, Martin Roetteler, and Matthias Troyer, "Quantum computing enhanced computational catalysis", Physical Review Research 3 3, 033055 (2021).

[630] Seyon Sivarajah, Silas Dilkes, Alexander Cowtan, Will Simmons, Alec Edgington, and Ross Duncan, "t|ket⟩: a retargetable compiler for NISQ devices", Quantum Science and Technology 6 1, 014003 (2021).

[631] Piotr Czarnik, Andrew Arrasmith, Patrick J. Coles, and Lukasz Cincio, "Error mitigation with Clifford quantum-circuit data", Quantum 5, 592 (2021).

[632] William J. Huggins, Sam McArdle, Thomas E. O'Brien, Joonho Lee, Nicholas C. Rubin, Sergio Boixo, K. Birgitta Whaley, Ryan Babbush, and Jarrod R. McClean, "Virtual Distillation for Quantum Error Mitigation", Physical Review X 11 4, 041036 (2021).

[633] Yuxuan Du, Min-Hsiu Hsieh, Tongliang Liu, Dacheng Tao, and Nana Liu, "Quantum noise protects quantum classifiers against adversaries", Physical Review Research 3 2, 023153 (2021).

[634] Taylor L. Patti, Khadijeh Najafi, Xun Gao, and Susanne F. Yelin, "Entanglement devised barren plateau mitigation", Physical Review Research 3 3, 033090 (2021).

[635] Bálint Koczor, "Exponential Error Suppression for Near-Term Quantum Devices", Physical Review X 11 3, 031057 (2021).

[636] Zheshen Zhang and Quntao Zhuang, "Distributed quantum sensing", Quantum Science and Technology 6 4, 043001 (2021).

[637] Jan F. Haase, Luca Dellantonio, Alessio Celi, Danny Paulson, Angus Kan, Karl Jansen, and Christine A. Muschik, "A resource efficient approach for quantum and classical simulations of gauge theories in particle physics", Quantum 5, 393 (2021).

[638] Atharv Joshi, Kyungjoo Noh, and Yvonne Y. Gao, "Quantum information processing with bosonic qubits in circuit QED", Quantum Science and Technology 6 3, 033001 (2021).

[639] Harrison Ball, Michael J. Biercuk, Andre R. R. Carvalho, Jiayin Chen, Michael Hush, Leonardo A. De Castro, Li Li, Per J. Liebermann, Harry J. Slatyer, Claire Edmunds, Virginia Frey, Cornelius Hempel, and Alistair Milne, "Software tools for quantum control: improving quantum computer performance through noise and error suppression", Quantum Science and Technology 6 4, 044011 (2021).

[640] Angus Lowe, Max Hunter Gordon, Piotr Czarnik, Andrew Arrasmith, Patrick J. Coles, and Lukasz Cincio, "Unified approach to data-driven quantum error mitigation", Physical Review Research 3 3, 033098 (2021).

[641] Avinash Chalumuri, Raghavendra Kune, S. Kannan, and B. S. Manoj, "Quantum-enhanced deep neural network architecture for image scene classification", Quantum Information Processing 20 11, 381 (2021).

[642] Peter Nimbe, Benjamin Asubam Weyori, and Adebayo Felix Adekoya, "Models in quantum computing: a systematic review", Quantum Information Processing 20 2, 80 (2021).

[643] Helin Zhang, Srivatsan Chakram, Tanay Roy, Nathan Earnest, Yao Lu, Ziwen Huang, D. K. Weiss, Jens Koch, and David I. Schuster, "Universal Fast-Flux Control of a Coherent, Low-Frequency Qubit", Physical Review X 11 1, 011010 (2021).

[644] Junhua Liu, Kwan Hui Lim, Kristin L. Wood, Wei Huang, Chu Guo, and He-Liang Huang, "Hybrid quantum-classical convolutional neural networks", Science China Physics, Mechanics, and Astronomy 64 9, 290311 (2021).

[645] L. C. G. Govia, G. J. Ribeill, G. E. Rowlands, H. K. Krovi, and T. A. Ohki, "Quantum reservoir computing with a single nonlinear oscillator", Physical Review Research 3 1, 013077 (2021).

[646] Leonardo Banchi and Gavin E. Crooks, "Measuring Analytic Gradients of General Quantum Evolution with the Stochastic Parameter Shift Rule", Quantum 5, 386 (2021).

[647] Avinash Chalumuri, Raghavendra Kune, and B. S. Manoj, "A hybrid classical-quantum approach for multi-class classification", Quantum Information Processing 20 3, 119 (2021).

[648] Armin Khamoshi, Francesco A. Evangelista, and Gustavo E. Scuseria, "Correlating AGP on a quantum computer", Quantum Science and Technology 6 1, 014004 (2021).

[649] Kouhei Nakaji and Naoki Yamamoto, "Expressibility of the alternating layered ansatz for quantum computation", Quantum 5, 434 (2021).

[650] Alexandre Choquette, Agustin Di Paolo, Panagiotis Kl. Barkoutsos, David Sénéchal, Ivano Tavernelli, and Alexandre Blais, "Quantum-optimal-control-inspired ansatz for variational quantum algorithms", Physical Review Research 3 2, 023092 (2021).

[651] Johannes Jakob Meyer, "Fisher Information in Noisy Intermediate-Scale Quantum Applications", Quantum 5, 539 (2021).

[652] Clarice D. Aiello, D. D. Awschalom, Hannes Bernien, Tina Brower, Kenneth R. Brown, Todd A. Brun, Justin R. Caram, Eric Chitambar, Rosa Di Felice, Karina Montilla Edmonds, Michael F. J. Fox, Stephan Haas, Alexander W. Holleitner, Eric R. Hudson, Jeffrey H. Hunt, Robert Joynt, Scott Koziol, M. Larsen, H. J. Lewandowski, Doug T. McClure, Jen Palsberg, Gina Passante, Kristen L. Pudenz, Christopher J. K. Richardson, Jessica L. Rosenberg, R. S. Ross, Mark Saffman, M. Singh, David W. Steuerman, Chad Stark, Jos Thijssen, A. Nick Vamivakas, James D. Whitfield, and Benjamin M. Zwickl, "Achieving a quantum smart workforce", Quantum Science and Technology 6 3, 030501 (2021).

[653] Chen Zhao and Xiao-Shan Gao, "Analyzing the barren plateau phenomenon in training quantum neural networks with the ZX-calculus", Quantum 5, 466 (2021).

[654] Rongxin Xia and Sabre Kais, "Qubit coupled cluster singles and doubles variational quantum eigensolver ansatz for electronic structure calculations", Quantum Science and Technology 6 1, 015001 (2021).

[655] Stefan H. Sack and Maksym Serbyn, "Quantum annealing initialization of the quantum approximate optimization algorithm", Quantum 5, 491 (2021).

[656] Ophelia Crawford, Barnaby van Straaten, Daochen Wang, Thomas Parks, Earl Campbell, and Stephen Brierley, "Efficient quantum measurement of Pauli operators in the presence of finite sampling error", Quantum 5, 385 (2021).

[657] Ryuji Takagi, "Optimal resource cost for error mitigation", Physical Review Research 3 3, 033178 (2021).

[658] Xin Wang, Zhixin Song, and Youle Wang, "Variational Quantum Singular Value Decomposition", Quantum 5, 483 (2021).

[659] Patrick Huembeli and Alexandre Dauphin, "Characterizing the loss landscape of variational quantum circuits", Quantum Science and Technology 6 2, 025011 (2021).

[660] Jakob S. Kottmann, Sumner Alperin-Lea, Teresa Tamayo-Mendoza, Alba Cervera-Lierta, Cyrille Lavigne, Tzu-Ching Yen, Vladyslav Verteletskyi, Philipp Schleich, Abhinav Anand, Matthias Degroote, Skylar Chaney, Maha Kesibi, Naomi Grace Curnow, Brandon Solo, Georgios Tsilimigkounakis, Claudia Zendejas-Morales, Artur F. Izmaylov, and Alán Aspuru-Guzik, "TEQUILA: a platform for rapid development of quantum algorithms", Quantum Science and Technology 6 2, 024009 (2021).

[661] Sukin Sim, Jonathan Romero, Jérôme F. Gonthier, and Alexander A. Kunitsa, "Adaptive pruning-based optimization of parameterized quantum circuits", Quantum Science and Technology 6 2, 025019 (2021).

[662] John P. T. Stenger, Nicholas T. Bronn, Daniel J. Egger, and David Pekker, "Simulating the dynamics of braiding of Majorana zero modes using an IBM quantum computer", Physical Review Research 3 3, 033171 (2021).

[663] Lindsay Bassman, Miroslav Urbanek, Mekena Metcalf, Jonathan Carter, Alexander F. Kemper, and Wibe A. de Jong, "Simulating quantum materials with digital quantum computers", Quantum Science and Technology 6 4, 043002 (2021).

[664] Sowmitra Das, Md. Saifur Rahman, and Mahbub Majumdar, "Design of a quantum repeater using quantum circuits and benchmarking its performance on an IBM quantum computer", Quantum Information Processing 20 7, 245 (2021).

[665] Jules Tilly, P. V. Sriluckshmy, Akashkumar Patel, Enrico Fontana, Ivan Rungger, Edward Grant, Robert Anderson, Jonathan Tennyson, and George H. Booth, "Reduced density matrix sampling: Self-consistent embedding and multiscale electronic structure on current generation quantum computers", Physical Review Research 3 3, 033230 (2021).

[666] Ensar Vahapoglu, James P. Slack-Smith, Ross C. C. Leon, Wee Han Lim, Fay E. Hudson, Tom Day, Tuomo Tanttu, Chih Hwan Yang, Arne Laucht, Andrew S. Dzurak, and Jarryd J. Pla, "Single-electron spin resonance in a nanoelectronic device using a global field", Science Advances 7 33, eabg9158 (2021).

[667] Alistair W. R. Smith, Kiran E. Khosla, Chris N. Self, and M. S. Kim, "Qubit readout error mitigation with bit-flip averaging", Science Advances 7 47, eabi8009 (2021).

[668] M. G. Blain, R. Haltli, P. Maunz, C. D. Nordquist, M. Revelle, and D. Stick, "Hybrid MEMS-CMOS ion traps for NISQ computing", Quantum Science and Technology 6 3, 034011 (2021).

[669] Benedikt Fauseweh and Jian-Xin Zhu, "Digital quantum simulation of non-equilibrium quantum many-body systems", Quantum Information Processing 20 4, 138 (2021).

[670] Saad Yalouz, Bruno Senjean, Jakob Günther, Francesco Buda, Thomas E. O'Brien, and Lucas Visscher, "A state-averaged orbital-optimized hybrid quantum-classical algorithm for a democratic description of ground and excited states", Quantum Science and Technology 6 2, 024004 (2021).

[671] Jiaqing Jiang, Kun Wang, and Xin Wang, "Physical Implementability of Linear Maps and Its Application in Error Mitigation", Quantum 5, 600 (2021).

[672] Joonho Kim, Jaedeok Kim, and Dario Rosa, "Universal effectiveness of high-depth circuits in variational eigenproblems", Physical Review Research 3 2, 023203 (2021).

[673] Yongxin Yao, Feng Zhang, Cai-Zhuang Wang, Kai-Ming Ho, and Peter P. Orth, "Gutzwiller hybrid quantum-classical computing approach for correlated materials", Physical Review Research 3 1, 013184 (2021).

[674] Kunal Marwaha, "Local classical MAX-CUT algorithm outperforms p=2 QAOA on high-girth regular graphs", Quantum 5, 437 (2021).

[675] Brian Coyle, Maxwell Henderson, Justin Chan Jin Le, Niraj Kumar, Marco Paini, and Elham Kashefi, "Quantum versus classical generative modelling in finance", Quantum Science and Technology 6 2, 024013 (2021).

[676] Shahnawaz Ahmed, Carlos Sánchez Muñoz, Franco Nori, and Anton Frisk Kockum, "Classification and reconstruction of optical quantum states with deep neural networks", Physical Review Research 3 3, 033278 (2021).

[677] Yadong Wu, Juan Yao, Pengfei Zhang, and Hui Zhai, "Expressivity of quantum neural networks", Physical Review Research 3 3, L032049 (2021).

[678] Tomonori Shirakawa, Kazuhiro Seki, and Seiji Yunoki, "Discretized quantum adiabatic process for free fermions and comparison with the imaginary-time evolution", Physical Review Research 3 1, 013004 (2021).

[679] Xinbiao Wang, Yuxuan Du, Yong Luo, and Dacheng Tao, "Towards understanding the power of quantum kernels in the NISQ era", Quantum 5, 531 (2021).

[680] Daniel Herr, Benjamin Obert, and Matthias Rosenkranz, "Anomaly detection with variational quantum generative adversarial networks", Quantum Science and Technology 6 4, 045004 (2021).

[681] Feng Zhang, Niladri Gomes, Noah F. Berthusen, Peter P. Orth, Cai-Zhuang Wang, Kai-Ming Ho, and Yong-Xin Yao, "Shallow-circuit variational quantum eigensolver based on symmetry-inspired Hilbert space partitioning for quantum chemical calculations", Physical Review Research 3 1, 013039 (2021).

[682] Kosuke Mitarai and Keisuke Fujii, "Overhead for simulating a non-local channel with local channels by quasiprobability sampling", Quantum 5, 388 (2021).

[683] Kohdai Kuroiwa and Yuya O. Nakagawa, "Penalty methods for a variational quantum eigensolver", Physical Review Research 3 1, 013197 (2021).

[684] Yi Xia, Wei Li, Quntao Zhuang, and Zheshen Zhang, "Quantum-Enhanced Data Classification with a Variational Entangled Sensor Network", Physical Review X 11 2, 021047 (2021).

[685] Aidan Pellow-Jarman, Ilya Sinayskiy, Anban Pillay, and Francesco Petruccione, "A comparison of various classical optimizers for a variational quantum linear solver", Quantum Information Processing 20 6, 202 (2021).

[686] Emiel Koridon, Saad Yalouz, Bruno Senjean, Francesco Buda, Thomas E. O'Brien, and Lucas Visscher, "Orbital transformations to reduce the 1-norm of the electronic structure Hamiltonian for quantum computing applications", Physical Review Research 3 3, 033127 (2021).

[687] N. Slate, E. Matwiejew, S. Marsh, and J. B. Wang, "Quantum walk-based portfolio optimisation", Quantum 5, 513 (2021).

[688] Ulysse Chabaud, Pierre-Emmanuel Emeriau, and Frédéric Grosshans, "Witnessing Wigner Negativity", Quantum 5, 471 (2021).

[689] Leo Zhou and Dorit Aharonov, "Strongly Universal Hamiltonian Simulators", arXiv:2102.02991, (2021).

[690] Shelly Garion, Naoki Kanazawa, Haggai Landa, David C. McKay, Sarah Sheldon, Andrew W. Cross, and Christopher J. Wood, "Experimental implementation of non-Clifford interleaved randomized benchmarking with a controlled-S gate", Physical Review Research 3 1, 013204 (2021).

[691] Kun Zhang, Pooja Rao, Kwangmin Yu, Hyunkyung Lim, and Vladimir Korepin, "Implementation of efficient quantum search algorithms on NISQ computers", Quantum Information Processing 20 7, 233 (2021).

[692] Arthur G. Rattew, Yue Sun, Pierre Minssen, and Marco Pistoia, "The Efficient Preparation of Normal Distributions in Quantum Registers", Quantum 5, 609 (2021).

[693] Lena Funcke, Tobias Hartung, Karl Jansen, Stefan Kühn, and Paolo Stornati, "Dimensional Expressivity Analysis of Parametric Quantum Circuits", Quantum 5, 422 (2021).

[694] Philippe Suchsland, Francesco Tacchino, Mark H. Fischer, Titus Neupert, Panagiotis Kl. Barkoutsos, and Ivano Tavernelli, "Algorithmic Error Mitigation Scheme for Current Quantum Processors", Quantum 5, 492 (2021).

[695] Filip B. Maciejewski, Flavio Baccari, Zoltán Zimborás, and Michał Oszmaniec, "Modeling and mitigation of cross-talk effects in readout noise with applications to the Quantum Approximate Optimization Algorithm", Quantum 5, 464 (2021).

[696] Ilya G. Ryabinkin, Artur F. Izmaylov, and Scott N. Genin, "A posteriori corrections to the iterative qubit coupled cluster method to minimize the use of quantum resources in large-scale calculations", Quantum Science and Technology 6 2, 024012 (2021).

[697] Michael L. Wall, Matthew R. Abernathy, and Gregory Quiroz, "Generative machine learning with tensor networks: Benchmarks on near-term quantum computers", Physical Review Research 3 2, 023010 (2021).

[698] Samuel Fernández-Lorenzo, Diego Porras, and Juan José García-Ripoll, "Hybrid quantum-classical optimization with cardinality constraints and applications to finance", Quantum Science and Technology 6 3, 034010 (2021).

[699] M. Cerezo, Akira Sone, Jacob L. Beckey, and Patrick J. Coles, "Sub-quantum Fisher information", Quantum Science and Technology 6 3, 035008 (2021).

[700] Justin Yirka and Yiğit Subaşı, "Qubit-efficient entanglement spectroscopy using qubit resets", Quantum 5, 535 (2021).

[701] Chee Kong Lee, Pranay Patil, Shengyu Zhang, and Chang Yu Hsieh, "Neural-network variational quantum algorithm for simulating many-body dynamics", Physical Review Research 3 2, 023095 (2021).

[702] Michael J. Hartmann and Frank Deppe, "Erste Demonstration von Quantenüberlegenheit", Physik in unserer Zeit 52 1, 12 (2021).

[703] Christina Giarmatzi and Fabio Costa, "Witnessing quantum memory in non-Markovian processes", Quantum 5, 440 (2021).

[704] Yadong Wu, Pengfei Zhang, and Hui Zhai, "Scrambling ability of quantum neural network architectures", Physical Review Research 3 3, L032057 (2021).

[705] Ana Martin, Bruno Candelas, Ángel Rodríguez-Rozas, José D. Martín-Guerrero, Xi Chen, Lucas Lamata, Román Orús, Enrique Solano, and Mikel Sanz, "Toward pricing financial derivatives with an IBM quantum computer", Physical Review Research 3 1, 013167 (2021).

[706] Chenyi Zhang, Jiaqi Leng, and Tongyang Li, "Quantum algorithms for escaping from saddle points", Quantum 5, 529 (2021).

[707] Shiro Tamiya, Sho Koh, and Yuya O. Nakagawa, "Calculating nonadiabatic couplings and Berry's phase by variational quantum eigensolvers", Physical Review Research 3 2, 023244 (2021).

[708] Daniel Claudino, Bo Peng, Nicholas P. Bauman, Karol Kowalski, and Travis S. Humble, "Improving the accuracy and efficiency of quantum connected moments expansions", Quantum Science and Technology 6 3, 034012 (2021).

[709] Alexis Ralli, Peter J. Love, Andrew Tranter, and Peter V. Coveney, "Implementation of measurement reduction for the variational quantum eigensolver", Physical Review Research 3 3, 033195 (2021).

[710] Nhat A. Nghiem, Samuel Yen-Chi Chen, and Tzu-Chieh Wei, "Unified framework for quantum classification", Physical Review Research 3 3, 033056 (2021).

[711] Chun-Jun Cao, "From Quantum Codes to Gravity: A Journey of Gravitizing Quantum Mechanics", Universe 8 1, 1 (2021).

[712] Alexandre M. Souza, "Process tomography of robust dynamical decoupling with superconducting qubits", Quantum Information Processing 20 7, 237 (2021).

[713] Kazuki Ikeda, "Quantum contracts between Schrödinger and a cat", Quantum Information Processing 20 9, 313 (2021).

[714] Kok Chuan Tan and Tyler Volkoff, "Variational quantum algorithms to estimate rank, quantum entropies, fidelity, and Fisher information via purity minimization", Physical Review Research 3 3, 033251 (2021).

[715] Soumik Adhikary, "Entanglement assisted training algorithm for supervised quantum classifiers", Quantum Information Processing 20 8, 254 (2021).

[716] Jinfeng Zeng, Chenfeng Cao, Chao Zhang, Pengxiang Xu, and Bei Zeng, "A variational quantum algorithm for Hamiltonian diagonalization", Quantum Science and Technology 6 4, 045009 (2021).

[717] T. Miyanaga, A. Tomonaga, H. Ito, H. Mukai, and J. S. Tsai, "Ultrastrong Tunable Coupler Between Superconducting L C Resonators", Physical Review Applied 16 6, 064041 (2021).

[718] Siyuan Niu and Aida Todri-Sanial, "Enabling Multi-programming Mechanism for Quantum Computing in the NISQ Era", arXiv:2102.05321, (2021).

[719] K. Bertels, A. Sarkar, A. Krol, R. Budhrani, J. Samadi, E. Geoffroy, J. Matos, R. Abreu, G. Gielen, and I. Ashraf, "Quantum Accelerator Stack: A Research Roadmap", arXiv:2102.02035, (2021).

[720] Benjamin Tan, Marc-Antoine Lemonde, Supanut Thanasilp, Jirawat Tangpanitanon, and Dimitris G. Angelakis, "Qubit-efficient encoding schemes for binary optimisation problems", Quantum 5, 454 (2021).

[721] Daiqin Su, Robert Israel, Kunal Sharma, Haoyu Qi, Ish Dhand, and Kamil Brádler, "Error mitigation on a near-term quantum photonic device", Quantum 5, 452 (2021).

[722] Karthik Chinni, Pablo M. Poggi, and Ivan H. Deutsch, "Effect of chaos on the simulation of quantum critical phenomena in analog quantum simulators", Physical Review Research 3 3, 033145 (2021).

[723] Yilun Xu, Gang Huang, David I. Santiago, and Irfan Siddiqi, "Radio frequency mixing modules for superconducting qubit room temperature control systems", Review of Scientific Instruments 92 7, 075108 (2021).

[724] Sean Greenaway, Frédéric Sauvage, Kiran E. Khosla, and Florian Mintert, "Efficient assessment of process fidelity", Physical Review Research 3 3, 033031 (2021).

[725] Oscar Higgott, Matthew Wilson, James Hefford, James Dborin, Farhan Hanif, Simon Burton, and Dan E. Browne, "Optimal local unitary encoding circuits for the surface code", Quantum 5, 517 (2021).

[726] Bo Peng and Karol Kowalski, "Variational quantum solver employing the PDS energy functional", Quantum 5, 473 (2021).

[727] Ulysse Chabaud, Damian Markham, and Adel Sohbi, "Quantum machine learning with adaptive linear optics", Quantum 5, 496 (2021).

[728] Ajinkya Borle, Vincent Elfving, and Samuel J. Lomonaco, "Quantum approximate optimization for hard problems in linear algebra", SciPost Physics Core 4 4, 031 (2021).

[729] Valery Shchesnovich, "Distinguishing noisy boson sampling from classical simulations", Quantum 5, 423 (2021).

[730] Sergi Ramos-Calderer, Emanuele Bellini, José I. Latorre, Marc Manzano, and Victor Mateu, "Quantum search for scaled hash function preimages", Quantum Information Processing 20 5, 180 (2021).

[731] Yi-Te Huang, Jhen-Dong Lin, Huan-Yu Ku, and Yueh-Nan Chen, "Benchmarking quantum state transfer on quantum devices", Physical Review Research 3 2, 023038 (2021).

[732] Awais Khan, Junaid ur Rehman, and Hyundong Shin, "Quantum anonymous notification for network-based applications", Quantum Information Processing 20 12, 397 (2021).

[733] Y. Herasymenko and T. E. O'Brien, "A diagrammatic approach to variational quantum ansatz construction", Quantum 5, 596 (2021).

[734] Xiaoqiang Wang, Lejia Gu, Heung-wing Lee, and Guofeng Zhang, "Quantum context-aware recommendation systems based on tensor singular value decomposition", Quantum Information Processing 20 5, 190 (2021).

[735] M. Mahdian and H. Davoodi Yeganeh, "Toward a quantum computing algorithm to quantify classical and quantum correlation of system states", Quantum Information Processing 20 12, 393 (2021).

[736] Alexandru Paler, Alwin Zulehner, and Robert Wille, "NISQ circuit compilation is the travelling salesman problem on a torus", Quantum Science and Technology 6 2, 025016 (2021).

[737] Zbigniew Puchała, Łukasz Pawela, Aleksandra Krawiec, Ryszard Kukulski, and Michał Oszmaniec, "Multiple-shot and unambiguous discrimination of von Neumann measurements", Quantum 5, 425 (2021).

[738] Leonardo Novo, Juani Bermejo-Vega, and Raúl García-Patrón, "Quantum advantage from energy measurements of many-body quantum systems", Quantum 5, 465 (2021).

[739] Simon Milz, Dominic Jurkschat, Felix A. Pollock, and Kavan Modi, "Delayed-choice causal order and nonclassical correlations", Physical Review Research 3 2, 023028 (2021).

[740] Dong-Ling Deng, "Quantum enhanced convolutional neural networks for NISQ computers", Science China Physics, Mechanics, and Astronomy 64 10, 100331 (2021).

[741] Heng Fan, "Efficient implementation of quantum arithmetic operation circuits", Science China Physics, Mechanics, and Astronomy 64 1, 210332 (2021).

[742] Brian Barch, Razieh Mohseninia, and Daniel Lidar, "Low overhead universality and quantum supremacy using only Z control", Physical Review Research 3 3, 033207 (2021).

[743] Seth Lloyd, "Quantum Machine Learning for Data Classification", Physics Online Journal 14, 79 (2021).

[744] F. Holik, M. Losada, H. Freytes, A. Plastino, and G. Sergioli, "Partial orbits of quantum gates and full three-particle entanglement", Quantum Information Processing 20 10, 351 (2021).

[745] Kieu Quang Tuan, Hung Q. Nguyen, and Le Bin Ho, "Direct state measurements under state-preparation-and-measurement errors", Quantum Information Processing 20 6, 197 (2021).

[746] Jyoti Faujdar and Atul Kumar, "A comparative study to analyze efficiencies of (N +2 ) -qubit partially entangled states in real conditions from the perspective of N controllers", Quantum Information Processing 20 2, 64 (2021).

[747] Yongsoo Hwang and Byung-Soo Choi, "Hierarchical system mapping for large-scale fault-tolerant quantum computing", Quantum Information Processing 20 6, 215 (2021).

[748] Wooyeong Song, Marcin Wieśniak, Nana Liu, Marcin Pawłowski, Jinhyoung Lee, Jaewan Kim, and Jeongho Bang, "Tangible reduction in learning sample complexity with large classical samples and small quantum system", Quantum Information Processing 20 8, 275 (2021).

[749] William J. Huggins, Jarrod R. McClean, Nicholas C. Rubin, Zhang Jiang, Nathan Wiebe, K. Birgitta Whaley, and Ryan Babbush, "Efficient and noise resilient measurements for quantum chemistry on near-term quantum computers", npj Quantum Information 7, 23 (2021).

[750] John M. Martinis, "Saving superconducting quantum processors from decay and correlated errors generated by gamma and cosmic rays", npj Quantum Information 7, 90 (2021).

[751] Jonathan Wei Zhong Lau, Kian Hwee Lim, Harshank Shrotriya, and Leong Chuan Kwek, "NISQ computing: where are we and where do we go?", Association of Asia Pacific Physical Societies Bulletin 32 1, 27 (2022).

[752] Antoine Neven, Jose Carrasco, Vittorio Vitale, Christian Kokail, Andreas Elben, Marcello Dalmonte, Pasquale Calabrese, Peter Zoller, Benoît Vermersch, Richard Kueng, and Barbara Kraus, "Symmetry-resolved entanglement detection using partial transpose moments", npj Quantum Information 7, 152 (2021).

[753] Evan Peters, João Caldeira, Alan Ho, Stefan Leichenauer, Masoud Mohseni, Hartmut Neven, Panagiotis Spentzouris, Doug Strain, and Gabriel N. Perdue, "Machine learning of high dimensional data on a noisy quantum processor", npj Quantum Information 7, 161 (2021).

[754] Johannes Jakob Meyer, Johannes Borregaard, and Jens Eisert, "A variational toolbox for quantum multi-parameter estimation", npj Quantum Information 7, 89 (2021).

[755] Alexander M. Dalzell, Nicholas Hunter-Jones, and Fernando G. S. L. Brandão, "Random quantum circuits transform local noise into global white noise", arXiv:2111.14907, (2021).

[756] Matija Medvidović and Giuseppe Carleo, "Classical variational simulation of the Quantum Approximate Optimization Algorithm", npj Quantum Information 7, 101 (2021).

[757] Hirofumi Nishi, Taichi Kosugi, and Yu-ichiro Matsushita, "Implementation of quantum imaginary-time evolution method on NISQ devices by introducing nonlocal approximation", npj Quantum Information 7, 85 (2021).

[758] Takeru Kusumoto, Kosuke Mitarai, Keisuke Fujii, Masahiro Kitagawa, and Makoto Negoro, "Experimental quantum kernel trick with nuclear spins in a solid", npj Quantum Information 7, 94 (2021).

[759] Denis Bokhan, Alena S. Mastiukova, Aleksey S. Boev, Dmitrii N. Trubnikov, and Aleksey K. Fedorov, "Multiclass classification using quantum convolutional neural networks with hybrid quantum-classical learning", Frontiers in Physics 10, 1069985 (2022).

[760] Oinam Romesh Meitei, Bryan T. Gard, George S. Barron, David P. Pappas, Sophia E. Economou, Edwin Barnes, and Nicholas J. Mayhall, "Gate-free state preparation for fast variational quantum eigensolver simulations", npj Quantum Information 7, 155 (2021).

[761] Charles Hadfield, Sergey Bravyi, Rudy Raymond, and Antonio Mezzacapo, "Measurements of Quantum Hamiltonians with Locally-Biased Classical Shadows", Communications in Mathematical Physics 391 3, 951 (2022).

[762] Zhenyu Cai, "Multi-exponential error extrapolation and combining error mitigation techniques for NISQ applications", npj Quantum Information 7, 80 (2021).

[763] Mahabubul Alam and Swaroop Ghosh, "QNet: A Scalable and Noise-resilient Quantum Neural Network Architecture for Noisy Intermediate-Scale Quantum Computers", Frontiers in Physics 9, 702 (2022).

[764] Dayue Qin, Xiaosi Xu, and Ying Li, "An overview of quantum error mitigation formulas", Chinese Physics B 31 9, 090306 (2022).

[765] Yunxiang Liao and Victor Galitski, "Effective Field Theory of Random Quantum Circuits", Entropy 24 6, 823 (2022).

[766] Romina Yalovetzky, Pierre Minssen, Dylan Herman, and Marco Pistoia, "Solving Linear Systems on Quantum Hardware with Hybrid HHL++", arXiv:2110.15958, (2021).

[767] Chenfeng Cao, Zheng An, Shi-Yao Hou, D. L. Zhou, and Bei Zeng, "Quantum imaginary time evolution steered by reinforcement learning", Communications Physics 5 1, 57 (2022).

[768] Huo Chen and Daniel A. Lidar, "Hamiltonian open quantum system toolkit", Communications Physics 5 1, 112 (2022).

[769] Chris N. Self, Kiran E. Khosla, Alistair W. R. Smith, Frédéric Sauvage, Peter D. Haynes, Johannes Knolle, Florian Mintert, and M. S. Kim, "Variational quantum algorithm with information sharing", npj Quantum Information 7, 116 (2021).

[770] Michael A. Perlin, Zain H. Saleem, Martin Suchara, and James C. Osborn, "Quantum circuit cutting with maximum-likelihood tomography", npj Quantum Information 7, 64 (2021).

[771] Sarmed A Rahman, Randy Lewis, Emanuele Mendicelli, and Sarah Powell, "SU(2) lattice gauge theory on a quantum annealer", arXiv:2103.08661, (2021).

[772] Tianyi Hao, Xuxin Huang, Chunjing Jia, and Cheng Peng, "A Quantum-Inspired Tensor Network Algorithm for Constrained Combinatorial Optimization Problems", Frontiers in Physics 10, 906590 (2022).

[773] Nathan Holman, D. Rosenberg, D. Yost, J. L. Yoder, R. Das, William D. Oliver, R. McDermott, and M. A. Eriksson, "3D integration and measurement of a semiconductor double quantum dot with a high-impedance TiN resonator", npj Quantum Information 7, 137 (2021).

[774] Nima Nikmehr, Peng Zhang, and Mikhail A. Bragin, "Quantum Distributed Unit Commitment: An Application in Microgrids", IEEE Transactions on Power Systems 37 5, 3592 (2022).

[775] F. Petiziol, A. Chiesa, S. Wimberger, P. Santini, and S. Carretta, "Counteracting dephasing in Molecular Nanomagnets by optimized qudit encodings", npj Quantum Information 7, 133 (2021).

[776] Alexandre M. Souza, Eldues O. Martins, Itzhak Roditi, Nahum Sá, Roberto S. Sarthour, and Ivan S. Oliveira, "An Application of Quantum Annealing Computing to Seismic Inversion", Frontiers in Physics 9, 784 (2022).

[777] Cahit Kargi, Juan Pablo Dehollain, Lukas M. Sieberer, Fabio Henriques, Tobias Olsacher, Philipp Hauke, Markus Heyl, Peter Zoller, and Nathan K. Langford, "Quantum Chaos and Universal Trotterisation Behaviours in Digital Quantum Simulations", arXiv:2110.11113, (2021).

[778] Arpan Bhattacharyya, Lata Kh. Joshi, and Bhuvanesh Sundar, "Quantum information scrambling: from holography to quantum simulators", European Physical Journal C 82 5, 458 (2022).

[779] Christian W. Bauer, Plato Deliyannis, Marat Freytsis, and Benjamin Nachman, "Practical considerations for the preparation of multivariate Gaussian states on quantum computers", arXiv:2109.10918, (2021).

[780] A. Barış Özgüler and Davide Venturelli, "Numerical gate synthesis for quantum heuristics on bosonic quantum processors", Frontiers in Physics 10, 900612 (2022).

[781] Xiao Yuan, Yunchao Liu, Qi Zhao, Bartosz Regula, Jayne Thompson, and Mile Gu, "Universal and operational benchmarking of quantum memories", npj Quantum Information 7, 108 (2021).

[782] Casper Gyurik, Dyon van Vreumingen, and Vedran Dunjko, "Structural risk minimization for quantum linear classifiers", arXiv:2105.05566, (2021).

[783] Xuanqiang Zhao, Benchi Zhao, Zihe Wang, Zhixin Song, and Xin Wang, "Practical distributed quantum information processing with LOCCNet", npj Quantum Information 7, 159 (2021).

[784] Peng Zhao, Yingshan Zhang, Guangming Xue, Yirong Jin, and Haifeng Yu, "Tunable coupling of widely separated superconducting qubits: A possible application toward a modular quantum device", Applied Physics Letters 121 3, 032601 (2022).

[785] Alexander M. Jakob, Simon G. Robson, Vivien Schmitt, Vincent Mourik, Matthias Posselt, Daniel Spemann, Brett C. Johnson, Hannes R. Firgau, Edwin Mayes, Jeffrey C. McCallum, Andrea Morello, and David N. Jamieson, "Deterministic Shallow Dopant Implantation in Silicon with Detection Confidence Upper-Bound to 99.85% by Ion-Solid Interactions", Advanced Materials 34 3, 2103235 (2022).

[786] Ryan Shaffer, Eli Megidish, Joseph Broz, Wei-Ting Chen, and Hartmut Häffner, "Practical verification protocols for analog quantum simulators", npj Quantum Information 7, 46 (2021).

[787] Ruixia Wang, Peng Zhao, Yirong Jin, and Haifeng Yu, "Control and mitigation of microwave crosstalk effect with superconducting qubits", Applied Physics Letters 121 15, 152602 (2022).

[788] Qing-Song Li, Huan-Yu Liu, Qingchun Wang, Yu-Chun Wu, and Guo-Ping Guo, "A unified framework of transformations based on the Jordan-Wigner transformation", Journal of Chemical Physics 157 13, 134104 (2022).

[789] Soronzonbold Otgonbaatar and Mihai Datcu, "Classification of Remote Sensing Images With Parameterized Quantum Gates", IEEE Geoscience and Remote Sensing Letters 19, 3108014 (2022).

[790] Freek Witteveen, Volkher Scholz, Brian Swingle, and Michael Walter, "Quantum Circuit Approximations and Entanglement Renormalization for the Dirac Field in 1+1 Dimensions", Communications in Mathematical Physics 389 1, 75 (2022).

[791] Cillian Harney and Stefano Pirandola, "Idler-free multi-channel discrimination via multipartite probe states", npj Quantum Information 7, 153 (2021).

[792] Lasse Bjørn Kristensen, Matthias Degroote, Peter Wittek, Alán Aspuru-Guzik, and Nikolaj T. Zinner, "An artificial spiking quantum neuron", npj Quantum Information 7, 59 (2021).

[793] Peihao Huang and Xuedong Hu, "Fast spin-valley-based quantum gates in Si with micromagnets", npj Quantum Information 7, 162 (2021).

[794] Aneirin J. Baker, Gerhard B. P. Huber, Niklas J. Glaser, Federico Roy, Ivan Tsitsilin, Stefan Filipp, and Michael J. Hartmann, "Single shot i-Toffoli gate in dispersively coupled superconducting qubits", Applied Physics Letters 120 5, 054002 (2022).

[795] Benjamin A. Cordier, Nicolas P. D. Sawaya, Gian G. Guerreschi, and Shannon K. McWeeney, "Biology and medicine in the landscape of quantum advantages", arXiv:2112.00760, (2021).

[796] Charles Ross, Gabriele Gradoni, Qi Jian Lim, and Zhen Peng, "Engineering Reflective Metasurfaces With Ising Hamiltonian and Quantum Annealing", IEEE Transactions on Antennas and Propagation 70 4, 2841 (2022).

[797] Junchao Wang, Guoping Guo, and Zheng Shan, "SoK: Benchmarking the Performance of a Quantum Computer", Entropy 24 10, 1467 (2022).

[798] Kaitlin N. Smith, Gokul Subramanian Ravi, Thomas Alexander, Nicholas T. Bronn, André R. R. Carvalho, Alba Cervera-Lierta, Frederic T. Chong, Jerry M. Chow, Michael Cubeddu, Akel Hashim, Liang Jiang, Olivia Lanes, Matthew J. Otten, David I. Schuster, Pranav Gokhale, Nathan Earnest, and Alexey Galda, "Programming physical quantum systems with pulse-level control", Frontiers in Physics 10, 900099 (2022).

[799] Scott Aaronson, "Open Problems Related to Quantum Query Complexity", arXiv:2109.06917, (2021).

[800] Davide Nigro, Vincenzo D'Ambrosio, Daniele Sanvitto, and Dario Gerace, "Integrated quantum polariton interferometry", Communications Physics 5 1, 34 (2022).

[801] Maurice Weber, Nana Liu, Bo Li, Ce Zhang, and Zhikuan Zhao, "Optimal provable robustness of quantum classification via quantum hypothesis testing", npj Quantum Information 7, 76 (2021).

[802] Hashir Kuniyil, Helin Ozel, Hasan Yilmaz, and Kadir Durak, "Noise-tolerant object detection and ranging using quantum correlations", Journal of Optics 24 10, 105201 (2022).

[803] Bülent Demirel, Weikai Weng, Christopher Thalacker, Matty Hoban, and Stefanie Barz, "Correlations for computation and computation for correlations", npj Quantum Information 7, 29 (2021).

[804] David Fitzek, Toheed Ghandriz, Leo Laine, Mats Granath, and Anton Frisk Kockum, "Applying quantum approximate optimization to the heterogeneous vehicle routing problem", arXiv:2110.06799, (2021).

[805] Kaixuan Huang, Zheng-An Wang, Chao Song, Kai Xu, Hekang Li, Zhen Wang, Qiujiang Guo, Zixuan Song, Zhi-Bo Liu, Dongning Zheng, Dong-Ling Deng, H. Wang, Jian-Guo Tian, and Heng Fan, "Quantum generative adversarial networks with multiple superconducting qubits", npj Quantum Information 7, 165 (2021).

[806] Wei Xia, Jie Zou, Xingze Qiu, and Xiaopeng Li, "The reservoir learning power across quantum many-body localization transition", Frontiers of Physics 17 3, 33506 (2022).

[807] Takaya Nakazato, Raustin Reyes, Nobuaki Imaike, Kazuyasu Matsuda, Kazuya Tsurumoto, Yuhei Sekiguchi, and Hideo Kosaka, "Quantum error correction of spin quantum memories in diamond under a zero magnetic field", Communications Physics 5 1, 102 (2022).

[808] Rui Huang, Xiaoqing Tan, and Qingshan Xu, "Quantum Federated Learning With Decentralized Data", IEEE Journal of Selected Topics in Quantum Electronics 28 4, 3170150 (2022).

[809] Zhimin He, Junjian Su, Chuangtao Chen, Minghua Pan, and Haozhen Situ, "Search space pruning for quantum architecture search", European Physical Journal Plus 137 4, 491 (2022).

[810] Chang Yu Hsieh, Qiming Sun, Shengyu Zhang, and Chee Kong Lee, "Unitary-coupled restricted Boltzmann machine ansatz for quantum simulations", npj Quantum Information 7, 19 (2021).

[811] Naeimeh Mohseni, Marek Narozniak, Alexey N. Pyrkov, Valentin Ivannikov, Jonathan P. Dowling, and Tim Byrnes, "Error suppression in adiabatic quantum computing with qubit ensembles", npj Quantum Information 7, 71 (2021).

[812] T. J. Sturges, T. McDermott, A. Buraczewski, W. R. Clements, J. J. Renema, S. W. Nam, T. Gerrits, A. Lita, W. S. Kolthammer, A. Eckstein, I. A. Walmsley, and M. Stobińska, "Quantum simulations with multiphoton Fock states", npj Quantum Information 7, 91 (2021).

[813] Yi-Ting Chen, Collin Farquhar, and Robert M. Parrish, "Low-rank density-matrix evolution for noisy quantum circuits", npj Quantum Information 7, 61 (2021).

[814] Javier Mancilla and Christophe Pere, "A Preprocessing Perspective for Quantum Machine Learning Classification Advantage in Finance Using NISQ Algorithms", Entropy 24 11, 1656 (2022).

[815] Andreas Burger, Leong Chuan Kwek, and Dario Poletti, "Digital Quantum Simulation of the Spin-Boson Model under Markovian Open-System Dynamics", Entropy 24 12, 1766 (2022).

[816] Yi Zeng, Hao Wang, Jin He, Qijun Huang, and Sheng Chang, "A Multi-Classification Hybrid Quantum Neural Network Using an All-Qubit Multi-Observable Measurement Strategy", Entropy 24 3, 394 (2022).

[817] M. R. Perelshtein, A. I. Pakhomchik, A. A. Melnikov, A. A. Novikov, A. Glatz, G. S. Paraoanu, V. M. Vinokur, and G. B. Lesovik, "Solving Large-Scale Linear Systems of Equations by a Quantum Hybrid Algorithm", Annalen der Physik 534 7, 2200082 (2022).

[818] Dax Enshan Koh, Guoming Wang, Peter D. Johnson, and Yudong Cao, "Foundations for Bayesian inference with engineered likelihood functions for robust amplitude estimation", Journal of Mathematical Physics 63 5, 052202 (2022).

[819] Timm Fabian Mörstedt, Arto Viitanen, Vasilii Vadimov, Vasilii Sevriuk, Matti Partanen, Eric Hyyppä, Gianluigi Catelani, Matti Silveri, Kuan Yen Tan, and Mikko Möttönen, "Recent Developments in Quantum-Circuit Refrigeration", Annalen der Physik 534 7, 2100543 (2022).

[820] Weijie Du, James P. Vary, Xingbo Zhao, and Wei Zuo, "Ab initio nuclear structure via quantum adiabatic algorithm", arXiv:2105.08910, (2021).

[821] Thomas Lubinski, Cassandra Granade, Amos Anderson, Alan Geller, Martin Roetteler, Andrei Petrenko, and Bettina Heim, "Advancing hybrid quantum-classical computation with real-time execution", Frontiers in Physics 10, 940293 (2022).

[822] Shohei Watabe, Michael Zach Serikow, Shiro Kawabata, and Alexandre Zagoskin, "Efficient criteria of quantumness for a large system of qubits", Frontiers in Physics 9, 744 (2022).

[823] David E. Bernal, Akshay Ajagekar, Stuart M. Harwood, Spencer T. Stober, Dimitar Trenev, and Fengqi You, "Perspectives of quantum computing for chemical engineering", AIChE Journal 68 6, e17651 (2022).

[824] Mingxia Huo and Ying Li, "Error-resilient Monte Carlo quantum simulation of imaginary time", arXiv:2109.07807, (2021).

[825] Yifeng Xiong, Soon Xin Ng, Gui-Lu Long, and Lajos Hanzo, "Dual-Frequency Quantum Phase Estimation Mitigates the Spectral Leakage of Quantum Algorithms", IEEE Signal Processing Letters 29, 1222 (2022).

[826] Heather M. Gray and Koji Terashi, "Quantum Computing Applications in Future Colliders", Frontiers in Physics 10, 864823 (2022).

[827] Jaesung Lee, Matthew D. LaHaye, and Philip X. -L. Feng, "Design of strongly nonlinear graphene nanoelectromechanical systems in quantum regime", Applied Physics Letters 120 1, 014001 (2022).

[828] Samudra Dasgupta and Travis S. Humble, "Characterizing the Reproducibility of Noisy Quantum Circuits", Entropy 24 2, 244 (2022).

[829] Steven Herbert, Ifan Williams, Roland Guichard, and Darren Ng, "Noise-Aware Quantum Amplitude Estimation", arXiv:2109.04840, (2021).

[830] Kevin Slagle, "Testing Quantum Mechanics using Noisy Quantum Computers", arXiv:2108.02201, (2021).

[831] Asahi Chikaoka and Haozhao Liang, "Quantum computing for the Lipkin model with unitary coupled cluster and structure learning ansatz", Chinese Physics C 46 2, 024106 (2022).

[832] Poulami Das, Swamit Tannu, Siddharth Dangwal, and Moinuddin Qureshi, "ADAPT: Mitigating Idling Errors in Qubits via Adaptive Dynamical Decoupling", arXiv:2109.05309, (2021).

[833] R. S. Amal and S. Kannan, "Manifestation of quantum images using unitary matrix encoding", European Physical Journal Plus 137 4, 449 (2022).

[834] Rakesh Kumar Saini, Raman Sehgal, and Sudhir R. Jain, "Protection of qubits by nonlinear resonances", European Physical Journal Plus 137 3, 356 (2022).

[835] Johannes Borregaard, Matthias Christandl, and Daniel Stilck França, "Noise-robust exploration of many-body quantum states on near-term quantum devices", npj Quantum Information 7, 45 (2021).

[836] Susan M. Clark, Daniel Lobser, Melissa Revelle, Christopher G. Yale, David Bossert, Ashlyn D. Burch, Matthew N. Chow, Craig W. Hogle, Megan Ivory, Jessica Pehr, Bradley Salzbrenner, Daniel Stick, William Sweatt, Joshua M. Wilson, Edward Winrow, and Peter Maunz, "Engineering the Quantum Scientific Computing Open User Testbed (QSCOUT): Design details and user guide", arXiv:2104.00759, (2021).

[837] Gabriel Margiani, Sebastián Guerrero, Toni L. Heugel, Christian Marty, Raphael Pachlatko, Thomas Gisler, Gabrielle D. Vukasin, Hyun-Keun Kwon, James M. L. Miller, Nicholas E. Bousse, Thomas W. Kenny, Oded Zilberberg, Deividas Sabonis, and Alexander Eichler, "Extracting the lifetime of a synthetic two-level system", Applied Physics Letters 121 16, 164101 (2022).

[838] Raustin Reyes, Takaya Nakazato, Nobuaki Imaike, Kazuyasu Matsuda, Kazuya Tsurumoto, Yuhei Sekiguchi, and Hideo Kosaka, "Complete Bell state measurement of diamond nuclear spins under a complete spatial symmetry at zero magnetic field", Applied Physics Letters 120 19, 194002 (2022).

[839] Hiroshi C. Watanabe, Rudy Raymond, Yu-ya Ohnishi, Eriko Kaminishi, and Michihiko Sugawara, "Optimizing Parameterized Quantum Circuits with Free-Axis Selection", arXiv:2104.14875, (2021).

[840] Ramin Ayanzadeh, Poulami Das, Swamit S. Tannu, and Moinuddin Qureshi, "EQUAL: Improving the Fidelity of Quantum Annealers by Injecting Controlled Perturbations", arXiv:2108.10964, (2021).

[841] Stig Elkjær Rasmussen and Nikolaj Thomas Zinner, "Parameterized Two-Qubit Gates for Enhanced Variational Quantum Eigensolver", Annalen der Physik 534 12, 2200338 (2022).

[842] Ivana Nikoloska and Osvaldo Simeone, "Training Hybrid Classical-Quantum Classifiers via Stochastic Variational Optimization", IEEE Signal Processing Letters 29, 977 (2022).

[843] Thibault Fredon, Julien Zylberman, Pablo Arnault, and Fabrice Debbasch, "Quantum Spatial Search with Electric Potential: Long-Time Dynamics and Robustness to Noise", Entropy 24 12, 1778 (2022).

[844] Junxiang Xiao, Jingwei Wen, Shijie Wei, and Guilu Long, "Reconstructing unknown quantum states using variational layerwise method", Frontiers of Physics 17 5, 51501 (2022).

[845] Zhaolong Huang, Qiting Li, Junling Zhao, and Meimei Song, "Variational Quantum Algorithm Applied to Collision Avoidance of Unmanned Aerial Vehicles", Entropy 24 11, 1685 (2022).

[846] Ying Chen, Yunheng Ma, and Shun Zhou, "Quantum Simulations of the Non-Unitary Time Evolution and Applications to Neutral-Kaon Oscillations", arXiv:2105.04765, (2021).

[847] Youle Wang, Guangxi Li, and Xin Wang, "A Hybrid Quantum-Classical Hamiltonian Learning Algorithm", arXiv:2103.01061, (2021).

[848] Ryuhei Yoshida, Erik Lötstedt, and Kaoru Yamanouchi, "Quantum computing of Hückel molecular orbitals of π-electron systems", Journal of Chemical Physics 156 18, 184117 (2022).

[849] Bill Poirier, "Efficient Evaluation of Exponential and Gaussian Functions on a Quantum Computer", arXiv:2110.05653, (2021).

[850] Osama Muhammad Raisuddin and Suvranu De, "FEqa: Finite element computations on quantum annealers", Computer Methods in Applied Mechanics and Engineering 395, 115014 (2022).

[851] Sishi Wu, Dengke Zhang, Rui Wang, Yulong Liu, Shuai-Peng Wang, Qichun Liu, J. S. Tsai, and Tiefu Li, "Vacuum-gap-based lumped element Josephson parametric amplifier", Chinese Physics B 31 1, 010306 (2022).

[852] Giovanni De Micheli, Jie-Hong R. Jiang, Robert Rand, Kaitlin Smith, and Mathias Soeken, "Advances in Quantum Computation and Quantum Technologies: A Design Automation Perspective", IEEE Journal on Emerging and Selected Topics in Circuits and Systems 12 3, 584 (2022).

[853] Kang Cai, Prabin Parajuli, Guilu Long, Chee Wei Wong, and Lin Tian, "Robust preparation of many-body ground states in Jaynes-Cummings lattices", npj Quantum Information 7, 96 (2021).

[854] Shuquan Ma, Changhua Zhu, Dongxiao Quan, and Min Nie, "A Distributed Architecture for Secure Delegated Quantum Computation", Entropy 24 6, 794 (2022).

[855] Ruilin Liu, Sebastián V. Romero, Izaskun Oregi, Eneko Osaba, Esther Villar-Rodriguez, and Yue Ban, "Digital Quantum Simulation and Circuit Learning for the Generation of Coherent States", Entropy 24 11, 1529 (2022).

[856] Soronzonbold Otgonbaatar and Mihai Datcu, "Natural Embedding of the Stokes Parameters of Polarimetric Synthetic Aperture Radar Images in a Gate-Based Quantum Computer", IEEE Transactions on Geoscience and Remote Sensing 60, 3110056 (2022).

[857] Yan Zhu, Ge Bai, Yuexuan Wang, Tongyang Li, and Giulio Chiribella, "Quantum autoencoders for communication-efficient quantum cloud computing", arXiv:2112.12369, (2021).

[858] Gabriele Cavallaro, Dora B. Heras, Zebin Wu, Manil Maskey, Sebastian Lopez, Piotr Gawron, Mihai Coca, and Mihai Datcu, "High-Performance and Disruptive Computing in Remote Sensing: HDCRS—A new Working Group of the GRSS Earth Science Informatics Technical Committee [Technical Committees]", IEEE Geoscience and Remote Sensing Magazine 10 2, 329 (2022).

[859] Sonia Lopez Alarcon and Anne C. Elster, "Quantum Computing and High-Performance Computing: Compilation Stack Similarities", Computing in Science and Engineering 24 6, 66 (2022).

[860] Shweta Sahoo, Utkarsh Azad, and Harjinder Singh, "Quantum phase recognition using quantum tensor networks", European Physical Journal Plus 137 12, 1373 (2022).

[861] Shiqing Tang, Chong Yang, Dongxiao Li, and Xiaoqiang Shao, "Implementation of Quantum Algorithms via Fast Three-Rydberg-Atom CCZ Gates", Entropy 24 10, 1371 (2022).

[862] Yongcheng Ding, Yue Ban, and Xi Chen, "Towards Quantum Control with Advanced Quantum Computing: A Perspective", Entropy 24 12, 1743 (2022).

[863] Valeria Saggio and Philip Walther, "Few-Copy Entanglement Detection in the Presence of Noise", Annalen der Physik 534 7, 2100597 (2022).

[864] Cheong Eung Ahn and Gil Young Cho, "Simulation and randomized measurement of topological phase on a trapped-ion quantum computer", Journal of Korean Physical Society 81 3, 258 (2022).

[865] Casey Duckering, Jonathan M. Baker, Andrew Litteken, and Frederic T. Chong, "Orchestrated Trios: Compiling for Efficient Communication in Quantum Programs with 3-Qubit Gates", arXiv:2102.08451, (2021).

[866] Ellis Wilson, Frank Mueller, Lindsay Bassman, and Constin Iancu, "Empirical Evaluation of Circuit Approximations on Noisy Quantum Devices", arXiv:2107.06701, (2021).

[867] Lin Htoo Zaw, Yuanzheng Paul Tan, Long Hoang Nguyen, Rangga P. Budoyo, Kun Hee Park, Zhi Yang Koh, Alessandro Landra, Christoph Hufnagel, Yung Szen Yap, Teck Seng Koh, and Rainer Dumke, "Ghost factors in Gauss-sum factorization with transmon qubits", arXiv:2104.11368, (2021).

[868] Keren Li and Pan Gao, "A NISQ Method to Simulate Hermitian Matrix Evolution", Entropy 24 7, 899 (2022).

[869] Gregory Slepyan and Amir Boag, "Super-operator Linear Equations and their Applications to Quantum Antennas and Quantum Light Scattering", arXiv:2112.09882, (2021).

[870] Laszlo Gyongyosi, "Adaptive Problem Solving Dynamics in Gate-Model Quantum Computers", Entropy 24 9, 1196 (2022).

[871] Haozhen Situ and Zhimin He, "Using simulated annealing to learn the SDC quantum protocol", European Physical Journal Plus 137 1, 98 (2022).

[872] Poulami Das, Swamit Tannu, and Moinuddin Qureshi, "JigSaw: Boosting Fidelity of NISQ Programs via Measurement Subsetting", arXiv:2109.05314, (2021).

[873] Benjamin Gys, Rohith Acharya, Steven Van Winckel, Kristiaan De Greve, Georges Gielen, and Francky Catthoor, "A Co-Simulation Methodology for the Design of Integrated Silicon Spin Qubits With Their Control/Readout Cryo-CMOS Electronics", IEEE Journal on Emerging and Selected Topics in Circuits and Systems 12 3, 685 (2022).

[874] Suhas Kumar, Xinxin Wang, John Paul Strachan, Yuchao Yang, and Wei D. Lu, "Dynamical memristors for higher-complexity neuromorphic computing", Nature Reviews Materials 7 7, 575 (2022).

[875] Zoë Holmes, Kunal Sharma, M. Cerezo, and Patrick J. Coles, "Connecting Ansatz Expressibility to Gradient Magnitudes and Barren Plateaus", PRX Quantum 3 1, 010313 (2022).

[876] Naeimeh Mohseni, Peter L. McMahon, and Tim Byrnes, "Ising machines as hardware solvers of combinatorial optimization problems", Nature Reviews Physics 4 6, 363 (2022).

[877] T. M. Graham, Y. Song, J. Scott, C. Poole, L. Phuttitarn, K. Jooya, P. Eichler, X. Jiang, A. Marra, B. Grinkemeyer, M. Kwon, M. Ebert, J. Cherek, M. T. Lichtman, M. Gillette, J. Gilbert, D. Bowman, T. Ballance, C. Campbell, E. D. Dahl, O. Crawford, N. S. Blunt, B. Rogers, T. Noel, and M. Saffman, "Multi-qubit entanglement and algorithms on a neutral-atom quantum computer", Nature 604 7906, 457 (2022).

[878] Dolev Bluvstein, Harry Levine, Giulia Semeghini, Tout T. Wang, Sepehr Ebadi, Marcin Kalinowski, Alexander Keesling, Nishad Maskara, Hannes Pichler, Markus Greiner, Vladan Vuletić, and Mikhail D. Lukin, "A quantum processor based on coherent transport of entangled atom arrays", Nature 604 7906, 451 (2022).

[879] Xiao Xue, Maximilian Russ, Nodar Samkharadze, Brennan Undseth, Amir Sammak, Giordano Scappucci, and Lieven M. K. Vandersypen, "Quantum logic with spin qubits crossing the surface code threshold", Nature 601 7893, 343 (2022).

[880] Sebastian Krinner, Nathan Lacroix, Ants Remm, Agustin Di Paolo, Elie Genois, Catherine Leroux, Christoph Hellings, Stefania Lazar, Francois Swiadek, Johannes Herrmann, Graham J. Norris, Christian Kraglund Andersen, Markus Müller, Alexandre Blais, Christopher Eichler, and Andreas Wallraff, "Realizing repeated quantum error correction in a distance-three surface code", Nature 605 7911, 669 (2022).

[881] Galan Moody, Volker J. Sorger, Daniel J. Blumenthal, Paul W. Juodawlkis, William Loh, Cheryl Sorace-Agaskar, Alex E. Jones, Krishna C. Balram, Jonathan C. F. Matthews, Anthony Laing, Marcelo Davanco, Lin Chang, John E. Bowers, Niels Quack, Christophe Galland, Igor Aharonovich, Martin A. Wolff, Carsten Schuck, Neil Sinclair, Marko Lončar, Tin Komljenovic, David Weld, Shayan Mookherjea, Sonia Buckley, Marina Radulaski, Stephan Reitzenstein, Benjamin Pingault, Bartholomeus Machielse, Debsuvra Mukhopadhyay, Alexey Akimov, Aleksei Zheltikov, Girish S. Agarwal, Kartik Srinivasan, Juanjuan Lu, Hong X. Tang, Wentao Jiang, Timothy P. McKenna, Amir H. Safavi-Naeini, Stephan Steinhauer, Ali W. Elshaari, Val Zwiller, Paul S. Davids, Nicholas Martinez, Michael Gehl, John Chiaverini, Karan K. Mehta, Jacquiline Romero, Navin B. Lingaraju, Andrew M. Weiner, Daniel Peace, Robert Cernansky, Mirko Lobino, Eleni Diamanti, Luis Trigo Vidarte, and Ryan M. Camacho, "2022 Roadmap on integrated quantum photonics", Journal of Physics: Photonics 4 1, 012501 (2022).

[882] Matthias C. Caro, Hsin-Yuan Huang, M. Cerezo, Kunal Sharma, Andrew Sornborger, Lukasz Cincio, and Patrick J. Coles, "Generalization in quantum machine learning from few training data", Nature Communications 13, 4919 (2022).

[883] Andrew J. Daley, Immanuel Bloch, Christian Kokail, Stuart Flannigan, Natalie Pearson, Matthias Troyer, and Peter Zoller, "Practical quantum advantage in quantum simulation", Nature 607 7920, 667 (2022).

[884] Patrick M. Harrington, Erich J. Mueller, and Kater W. Murch, "Engineered dissipation for quantum information science", Nature Reviews Physics 4 10, 660 (2022).

[885] Christian D. Marciniak, Thomas Feldker, Ivan Pogorelov, Raphael Kaubruegger, Denis V. Vasilyev, Rick van Bijnen, Philipp Schindler, Peter Zoller, Rainer Blatt, and Thomas Monz, "Optimal metrology with programmable quantum sensors", Nature 603 7902, 604 (2022).

[886] Yulong Dong, Lin Lin, and Yu Tong, "Ground-State Preparation and Energy Estimation on Early Fault-Tolerant Quantum Computers via Quantum Eigenvalue Transformation of Unitary Matrices", PRX Quantum 3 4, 040305 (2022).

[887] Dmitry A. Fedorov, Bo Peng, Niranjan Govind, and Yuri Alexeev, "VQE method: a short survey and recent developments", Materials Theory 6 1, 2 (2022).

[888] J. F. Marques, B. M. Varbanov, M. S. Moreira, H. Ali, N. Muthusubramanian, C. Zachariadis, F. Battistel, M. Beekman, N. Haider, W. Vlothuizen, A. Bruno, B. M. Terhal, and L. DiCarlo, "Logical-qubit operations in an error-detecting surface code", Nature Physics 18 1, 80 (2022).

[889] Noah Goss, Alexis Morvan, Brian Marinelli, Bradley K. Mitchell, Long B. Nguyen, Ravi K. Naik, Larry Chen, Christian Jünger, John Mark Kreikebaum, David I. Santiago, Joel J. Wallman, and Irfan Siddiqi, "High-fidelity qutrit entangling gates for superconducting circuits", Nature Communications 13, 7481 (2022).

[890] Eric R. Anschuetz and Bobak T. Kiani, "Quantum variational algorithms are swamped with traps", Nature Communications 13, 7760 (2022).

[891] Stefan H. Sack, Raimel A. Medina, Alexios A. Michailidis, Richard Kueng, and Maksym Serbyn, "Avoiding Barren Plateaus Using Classical Shadows", PRX Quantum 3 2, 020365 (2022).

[892] Kaoru Mizuta, Yuya O. Nakagawa, Kosuke Mitarai, and Keisuke Fujii, "Local Variational Quantum Compilation of Large-Scale Hamiltonian Dynamics", PRX Quantum 3 4, 040302 (2022).

[893] Philip Thomas, Leonardo Ruscio, Olivier Morin, and Gerhard Rempe, "Efficient generation of entangled multiphoton graph states from a single atom", Nature 608 7924, 677 (2022).

[894] Yu-Jie Liu, Kirill Shtengel, Adam Smith, and Frank Pollmann, "Methods for Simulating String-Net States and Anyons on a Digital Quantum Computer", PRX Quantum 3 4, 040315 (2022).

[895] Timothy Proctor, Kenneth Rudinger, Kevin Young, Erik Nielsen, and Robin Blume-Kohout, "Measuring the capabilities of quantum computers", Nature Physics 18 1, 75 (2022).

[896] Guillermo González-García, Rahul Trivedi, and J. Ignacio Cirac, "Error Propagation in NISQ Devices for Solving Classical Optimization Problems", PRX Quantum 3 4, 040326 (2022).

[897] Brennan de Neeve, Thanh-Long Nguyen, Tanja Behrle, and Jonathan P. Home, "Error correction of a logical grid state qubit by dissipative pumping", Nature Physics 18 3, 296 (2022).

[898] Johannes Herrmann, Sergi Masot Llima, Ants Remm, Petr Zapletal, Nathan A. McMahon, Colin Scarato, François Swiadek, Christian Kraglund Andersen, Christoph Hellings, Sebastian Krinner, Nathan Lacroix, Stefania Lazar, Michael Kerschbaum, Dante Colao Zanuz, Graham J. Norris, Michael J. Hartmann, Andreas Wallraff, and Christopher Eichler, "Realizing quantum convolutional neural networks on a superconducting quantum processor to recognize quantum phases", Nature Communications 13, 4144 (2022).

[899] Kyungjoo Noh, Christopher Chamberland, and Fernando G. S. L. Brandão, "Low-Overhead Fault-Tolerant Quantum Error Correction with the Surface-GKP Code", PRX Quantum 3 1, 010315 (2022).

[900] Alexia Auffèves, "Quantum Technologies Need a Quantum Energy Initiative", PRX Quantum 3 2, 020101 (2022).

[901] Enrico Rinaldi, Xizhi Han, Mohammad Hassan, Yuan Feng, Franco Nori, Michael McGuigan, and Masanori Hanada, "Matrix-Model Simulations Using Quantum Computing, Deep Learning, and Lattice Monte Carlo", PRX Quantum 3 1, 010324 (2022).

[902] Cristian L. Cortes and Stephen K. Gray, "Quantum Krylov subspace algorithms for ground- and excited-state energy estimation", Physical Review A 105 2, 022417 (2022).

[903] Long B. Nguyen, Gerwin Koolstra, Yosep Kim, Alexis Morvan, Trevor Chistolini, Shraddha Singh, Konstantin N. Nesterov, Christian Jünger, Larry Chen, Zahra Pedramrazi, Bradley K. Mitchell, John Mark Kreikebaum, Shruti Puri, David I. Santiago, and Irfan Siddiqi, "Blueprint for a High-Performance Fluxonium Quantum Processor", PRX Quantum 3 3, 037001 (2022).

[904] Abhinav Deshpande, Pradeep Niroula, Oles Shtanko, Alexey V. Gorshkov, Bill Fefferman, and Michael J. Gullans, "Tight Bounds on the Convergence of Noisy Random Circuits to the Uniform Distribution", PRX Quantum 3 4, 040329 (2022).

[905] M. Virginia P. Altoé, Archan Banerjee, Cassidy Berk, Ahmed Hajr, Adam Schwartzberg, Chengyu Song, Mohammed Alghadeer, Shaul Aloni, Michael J. Elowson, John Mark Kreikebaum, Ed K. Wong, Sinéad M. Griffin, Saleem Rao, Alexander Weber-Bargioni, Andrew M. Minor, David I. Santiago, Stefano Cabrini, Irfan Siddiqi, and D. Frank Ogletree, "Localization and Mitigation of Loss in Niobium Superconducting Circuits", PRX Quantum 3 2, 020312 (2022).

[906] Riccardo J. Valencia-Tortora, Nicola Pancotti, and Jamir Marino, "Kinetically Constrained Quantum Dynamics in Superconducting Circuits", PRX Quantum 3 2, 020346 (2022).

[907] Mingxia Huo and Ying Li, "Dual-state purification for practical quantum error mitigation", Physical Review A 105 2, 022427 (2022).

[908] Michał Oszmaniec, Ninnat Dangniam, Mauro E. S. Morales, and Zoltán Zimborás, "Fermion Sampling: A Robust Quantum Computational Advantage Scheme Using Fermionic Linear Optics and Magic Input States", PRX Quantum 3 2, 020328 (2022).

[909] Keisuke Fujii, Kaoru Mizuta, Hiroshi Ueda, Kosuke Mitarai, Wataru Mizukami, and Yuya O. Nakagawa, "Deep Variational Quantum Eigensolver: A Divide-And-Conquer Method for Solving a Larger Problem with Smaller Size Quantum Computers", PRX Quantum 3 1, 010346 (2022).

[910] Minhyuk Kim, Kangheun Kim, Jaeyong Hwang, Eun-Gook Moon, and Jaewook Ahn, "Rydberg quantum wires for maximum independent set problems", Nature Physics 18 7, 755 (2022).

[911] Xu Zhang, Wenjie Jiang, Jinfeng Deng, Ke Wang, Jiachen Chen, Pengfei Zhang, Wenhui Ren, Hang Dong, Shibo Xu, Yu Gao, Feitong Jin, Xuhao Zhu, Qiujiang Guo, Hekang Li, Chao Song, Alexey V. Gorshkov, Thomas Iadecola, Fangli Liu, Zhe-Xuan Gong, Zhen Wang, Dong-Ling Deng, and H. Wang, "Digital quantum simulation of Floquet symmetry-protected topological phases", Nature 607 7919, 468 (2022).

[912] Chaebin Kim, Heung-Sik Kim, and Je-Geun Park, "Spin-orbital entangled state and realization of Kitaev physics in 3d cobalt compounds: a progress report", Journal of Physics Condensed Matter 34 2, 023001 (2022).

[913] Benjamin F. Schiffer, Jordi Tura, and J. Ignacio Cirac, "Adiabatic Spectroscopy and a Variational Quantum Adiabatic Algorithm", PRX Quantum 3 2, 020347 (2022).

[914] Maninder Kaur and Araceli Venegas-Gomez, "Defining the quantum workforce landscape: a review of global quantum education initiatives", Optical Engineering 61, 081806 (2022).

[915] Muhammad Ahsan, Syed Abbas Zilqurnain Naqvi, and Haider Anwer, "Quantum circuit engineering for correcting coherent noise", Physical Review A 105 2, 022428 (2022).

[916] Hongbin Liu, Guang Hao Low, Damian S. Steiger, Thomas Häner, Markus Reiher, and Matthias Troyer, "Prospects of quantum computing for molecular sciences", Materials Theory 6 1, 11 (2022).

[917] Kübra Yeter-Aydeniz, Eleftherios Moschandreou, and George Siopsis, "Quantum imaginary-time evolution algorithm for quantum field theories with continuous variables", Physical Review A 105 1, 012412 (2022).

[918] Paula García-Molina, Javier Rodríguez-Mediavilla, and Juan José García-Ripoll, "Quantum Fourier analysis for multivariate functions and applications to a class of Schrödinger-type partial differential equations", Physical Review A 105 1, 012433 (2022).

[919] Ludmila Botelho, Adam Glos, Akash Kundu, Jarosław Adam Miszczak, Özlem Salehi, and Zoltán Zimborás, "Error mitigation for variational quantum algorithms through mid-circuit measurements", Physical Review A 105 2, 022441 (2022).

[920] Piotr Migdał, Klementyna Jankiewicz, Paweł Grabarz, Chiara Decaroli, and Philippe Cochin, "Visualizing quantum mechanics in an interactive simulation - Virtual Lab by Quantum Flytrap", Optical Engineering 61, 081808 (2022).

[921] Maxwell Aifer and Sebastian Deffner, "From quantum speed limits to energy-efficient quantum gates", New Journal of Physics 24 5, 055002 (2022).

[922] Hakop Pashayan, Oliver Reardon-Smith, Kamil Korzekwa, and Stephen D. Bartlett, "Fast Estimation of Outcome Probabilities for Quantum Circuits", PRX Quantum 3 2, 020361 (2022).

[923] Yudai Suzuki, Qi Gao, Ken C. Pradel, Kenji Yasuoka, and Naoki Yamamoto, "Natural quantum reservoir computing for temporal information processing", Scientific Reports 12, 1353 (2022).

[924] Andrea Maiani, Morten Kjaergaard, and Constantin Schrade, "Entangling Transmons with Low-Frequency Protected Superconducting Qubits", PRX Quantum 3 3, 030329 (2022).

[925] Scott E. Smart, Jan-Niklas Boyn, and David A. Mazziotti, "Resolving correlated states of benzyne with an error-mitigated contracted quantum eigensolver", Physical Review A 105 2, 022405 (2022).

[926] Eric Hyyppä, Suman Kundu, Chun Fai Chan, András Gunyhó, Juho Hotari, David Janzso, Kristinn Juliusson, Olavi Kiuru, Janne Kotilahti, Alessandro Landra, Wei Liu, Fabian Marxer, Akseli Mäkinen, Jean-Luc Orgiazzi, Mario Palma, Mykhailo Savytskyi, Francesca Tosto, Jani Tuorila, Vasilii Vadimov, Tianyi Li, Caspar Ockeloen-Korppi, Johannes Heinsoo, Kuan Yen Tan, Juha Hassel, and Mikko Möttönen, "Unimon qubit", Nature Communications 13, 6895 (2022).

[927] Lindsay Bassman, Roel Van Beeumen, Ed Younis, Ethan Smith, Costin Iancu, and Wibe A. de Jong, "Constant-depth circuits for dynamic simulations of materials on quantum computers", Materials Theory 6 1, 13 (2022).

[928] Tony J. G. Apollaro, Salvatore Lorenzo, Francesco Plastina, Mirko Consiglio, and Karol Życzkowski, "Quantum transfer of interacting qubits", New Journal of Physics 24 8, 083025 (2022).

[929] John S. Van Dyke, Edwin Barnes, Sophia E. Economou, and Rafael I. Nepomechie, "Preparing exact eigenstates of the open XXZ chain on a quantum computer", Journal of Physics A Mathematical General 55 5, 055301 (2022).

[930] Phillip C. Lotshaw, Thien Nguyen, Anthony Santana, Alexander McCaskey, Rebekah Herrman, James Ostrowski, George Siopsis, and Travis S. Humble, "Scaling quantum approximate optimization on near-term hardware", Scientific Reports 12, 12388 (2022).

[931] Bobak Toussi Kiani, Giacomo De Palma, Dirk Englund, William Kaminsky, Milad Marvian, and Seth Lloyd, "Quantum advantage for differential equation analysis", Physical Review A 105 2, 022415 (2022).

[932] Rebecca Hicks, Bryce Kobrin, Christian W. Bauer, and Benjamin Nachman, "Active readout-error mitigation", Physical Review A 105 1, 012419 (2022).

[933] Irénée Frérot, Flavio Baccari, and Antonio Acín, "Unveiling Quantum Entanglement in Many-Body Systems from Partial Information", PRX Quantum 3 1, 010342 (2022).

[934] Bin Yan and Wojciech H. Zurek, "Decoherence factor as a convolution: an interplay between a Gaussian and an exponential coherence loss", New Journal of Physics 24 11, 113029 (2022).

[935] Karthik Chinni, Manuel H. Muñoz-Arias, Ivan H. Deutsch, and Pablo M. Poggi, "Trotter Errors from Dynamical Structural Instabilities of Floquet Maps in Quantum Simulation", PRX Quantum 3 1, 010351 (2022).

[936] Mogens Dalgaard, Felix Motzoi, and Jacob Sherson, "Predicting quantum dynamical cost landscapes with deep learning", Physical Review A 105 1, 012402 (2022).

[937] D. K. Weiss, Helin Zhang, Chunyang Ding, Yuwei Ma, David I. Schuster, and Jens Koch, "Fast High-Fidelity Gates for Galvanically-Coupled Fluxonium Qubits Using Strong Flux Modulation", PRX Quantum 3 4, 040336 (2022).

[938] Kyung Seok Woo, Jaehyun Kim, Janguk Han, Woohyun Kim, Yoon Ho Jang, and Cheol Seong Hwang, "Probabilistic computing using Cu<SUB>0.1</SUB>Te<SUB>0.9</SUB>/HfO<SUB>2</SUB>/Pt diffusive memristors", Nature Communications 13, 5762 (2022).

[939] Kun Fang and Zi-Wen Liu, "No-Go Theorems for Quantum Resource Purification: New Approach and Channel Theory", PRX Quantum 3 1, 010337 (2022).

[940] Marie Lu, Jean-Loup Ville, Joachim Cohen, Alexandru Petrescu, Sydney Schreppler, Larry Chen, Christian Jünger, Chiara Pelletti, Alexei Marchenkov, Archan Banerjee, William P. Livingston, John Mark Kreikebaum, David I. Santiago, Alexandre Blais, and Irfan Siddiqi, "Multipartite Entanglement in Rabi-Driven Superconducting Qubits", PRX Quantum 3 4, 040322 (2022).

[941] Mirko Consiglio, Wayne J. Chetcuti, Carlos Bravo-Prieto, Sergi Ramos-Calderer, Anna Minguzzi, José I. Latorre, Luigi Amico, and Tony J. G. Apollaro, "Variational quantum eigensolver for SU(N) fermions", Journal of Physics A Mathematical General 55 26, 265301 (2022).

[942] Elija Perrier, Akram Youssry, and Chris Ferrie, "QDataSet, quantum datasets for machine learning", Scientific Data 9 1, 582 (2022).

[943] Lukas Gerster, Fernando Martínez-García, Pavel Hrmo, Martin W. van Mourik, Benjamin Wilhelm, Davide Vodola, Markus Müller, Rainer Blatt, Philipp Schindler, and Thomas Monz, "Experimental Bayesian Calibration of Trapped-Ion Entangling Operations", PRX Quantum 3 2, 020350 (2022).

[944] Y. Y. Liu, Z. Chen, C. Shu, S. C. Chew, B. C. Khoo, X. Zhao, and Y. D. Cui, "Application of a variational hybrid quantum-classical algorithm to heat conduction equation and analysis of time complexity", Physics of Fluids 34 11, 117121 (2022).

[945] Thomas E. O'Brien, Lev B. Ioffe, Yuan Su, David Fushman, Hartmut Neven, Ryan Babbush, and Vadim Smelyanskiy, "Quantum Computation of Molecular Structure Using Data from Challenging-To-Classically-Simulate Nuclear Magnetic Resonance Experiments", PRX Quantum 3 3, 030345 (2022).

[946] Gaurav Gyawali and Michael J. Lawler, "Adaptive variational preparation of the Fermi-Hubbard eigenstates", Physical Review A 105 1, 012413 (2022).

[947] Zhenhuan Liu, Pei Zeng, You Zhou, and Mile Gu, "Characterizing correlation within multipartite quantum systems via local randomized measurements", Physical Review A 105 2, 022407 (2022).

[948] Gabriele Agliardi, Michele Grossi, Mathieu Pellen, and Enrico Prati, "Quantum integration of elementary particle processes", Physics Letters B 832, 137228 (2022).

[949] Alan Morningstar, Markus Hauru, Jackson Beall, Martin Ganahl, Adam G. M. Lewis, Vedika Khemani, and Guifre Vidal, "Simulation of Quantum Many-Body Dynamics with Tensor Processing Units: Floquet Prethermalization", PRX Quantum 3 2, 020331 (2022).

[950] Fong Yew Leong, Wei-Bin Ewe, and Dax Enshan Koh, "Variational quantum evolution equation solver", Scientific Reports 12, 10817 (2022).

[951] Keisuke Matsumoto, Yuta Shingu, Suguru Endo, Shiro Kawabata, Shohei Watabe, Tetsuro Nikuni, Hideaki Hakoshima, and Yuichiro Matsuzaki, "Calculation of Gibbs partition function with imaginary time evolution on near-term quantum computers", Japanese Journal of Applied Physics 61 4, 042002 (2022).

[952] Qinghong Yang and Dong E. Liu, "Effect of quantum error correction on detection-induced coherent errors", Physical Review A 105 2, 022434 (2022).

[953] Maxime Dupont, Nicolas Didier, Mark J. Hodson, Joel E. Moore, and Matthew J. Reagor, "Calibrating the Classical Hardness of the Quantum Approximate Optimization Algorithm", PRX Quantum 3 4, 040339 (2022).

[954] Suhail Ahmad Rather, S. Aravinda, and Arul Lakshminarayan, "Construction and Local Equivalence of Dual-Unitary Operators: From Dynamical Maps to Quantum Combinatorial Designs", PRX Quantum 3 4, 040331 (2022).

[955] Sabine Tornow, Wolfgang Gehrke, and Udo Helmbrecht, "Non-equilibrium dynamics of a dissipative two-site Hubbard model simulated on IBM quantum computers", Journal of Physics A Mathematical General 55 24, 245302 (2022).

[956] Philipp Schleich, Jakob S. Kottmann, and Alán Aspuru-Guzik, "Improving the accuracy of the variational quantum eigensolver for molecular systems by the explicitly-correlated perturbative [2]R12-correction", Physical Chemistry Chemical Physics (Incorporating Faraday Transactions) 24 22, 13550 (2022).

[957] Eoin Carolan, Anthony Kiely, and Steve Campbell, "Counterdiabatic control in the impulse regime", Physical Review A 105 1, 012605 (2022).

[958] Cheng-Lin Hong, Ting Tsai, Jyh-Pin Chou, Peng-Jen Chen, Pei-Kai Tsai, Yu-Cheng Chen, En-Jui Kuo, David Srolovitz, Alice Hu, Yuan-Chung Cheng, and Hsi-Sheng Goan, "Accurate and Efficient Quantum Computations of Molecular Properties Using Daubechies Wavelet Molecular Orbitals: A Benchmark Study against Experimental Data", PRX Quantum 3 2, 020360 (2022).

[959] N. Schetakis, D. Aghamalyan, P. Griffin, and M. Boguslavsky, "Review of some existing QML frameworks and novel hybrid classical-quantum neural networks realising binary classification for the noisy datasets", Scientific Reports 12, 11927 (2022).

[960] Michael A. Jones, Harish J. Vallury, Charles D. Hill, and Lloyd C. L. Hollenberg, "Chemistry beyond the Hartree-Fock energy via quantum computed moments", Scientific Reports 12, 8985 (2022).

[961] Evan Peters, Prasanth Shyamsundar, Andy C. Y. Li, and Gabriel Perdue, "Qubit Assignment Using Time Reversal", PRX Quantum 3 4, 040333 (2022).

[962] Tomoaki Kimura, Kodai Shiba, Chih-Chieh Chen, Masaru Sogabe, Katsuyoshi Sakamoto, and Tomah Sogabe, "Quantum circuit architectures via quantum observable Markov decision process planning", Journal of Physics Communications 6 7, 075006 (2022).

[963] Jerimiah Wright, Meenambika Gowrishankar, Daniel Claudino, Phillip C. Lotshaw, Thien Nguyen, Alexander J. McCaskey, and Travis S. Humble, "Numerical simulations of noisy quantum circuits for computational chemistry", Materials Theory 6 1, 18 (2022).

[964] Joonho Kim and Yaron Oz, "Entanglement diagnostics for efficient VQA optimization", Journal of Statistical Mechanics: Theory and Experiment 2022 7, 073101 (2022).

[965] Leonid V. Abdurakhimov, Imran Mahboob, Hiraku Toida, Kosuke Kakuyanagi, Yuichiro Matsuzaki, and Shiro Saito, "Identification of Different Types of High-Frequency Defects in Superconducting Qubits", PRX Quantum 3 4, 040332 (2022).

[966] Chaohan Cui, William Horrocks, Shuhong Hao, Saikat Guha, Nasser Peyghambarian, Quntao Zhuang, and Zheshen Zhang, "Quantum receiver enhanced by adaptive learning", Light: Science & Applications 11 1, 344 (2022).

[967] Marco Lazzarin, Davide Emilio Galli, and Enrico Prati, "Multi-class quantum classifiers with tensor network circuits for quantum phase recognition", Physics Letters A 434, 128056 (2022).

[968] Dong-Sheng Wang, Yun-Jiang Wang, Ningping Cao, Bei Zeng, and Raymond Laflamme, "Theory of quasi-exact fault-tolerant quantum computing and valence-bond-solid codes", New Journal of Physics 24 2, 023019 (2022).

[969] Jie Zhu, Yuya O. Nakagawa, Yong-Sheng Zhang, Chuan-Feng Li, and Guang-Can Guo, "Calculating the Green's function of two-site fermionic Hubbard model in a photonic system", New Journal of Physics 24 4, 043030 (2022).

[970] Francesco Preti, Tommaso Calarco, and Felix Motzoi, "Continuous Quantum Gate Sets and Pulse-Class Meta-Optimization", PRX Quantum 3 4, 040311 (2022).

[971] Morten Kjaergaard, "An improved recipe for error detection", Nature Physics 18 1, 7 (2022).

[972] Mercy G. Amankwah, Daan Camps, E. Wes Bethel, Roel Van Beeumen, and Talita Perciano, "Quantum pixel representations and compression for N-dimensional images", Scientific Reports 12, 7712 (2022).

[973] G. S. Thekkadath, S. Sempere-Llagostera, B. A. Bell, R. B. Patel, M. S. Kim, and I. A. Walmsley, "Experimental Demonstration of Gaussian Boson Sampling with Displacement", PRX Quantum 3 2, 020336 (2022).

[974] Chih-Chieh Chen, Masaru Sogabe, Kodai Shiba, Katsuyoshi Sakamoto, and Tomah Sogabe, "General Vapnik-Chervonenkis dimension bounds for quantum circuit learning", Journal of Physics: Complexity 3 4, 045007 (2022).

[975] Benjamin L. Foulon, Keith G. Ray, Chang-Eun Kim, Yuan Liu, Brenda M. Rubenstein, and Vincenzo Lordi, "1 /ω electric-field noise in surface ion traps from correlated adsorbate dynamics", Physical Review A 105 1, 013107 (2022).

[976] Alexander Hahn, Daniel Burgarth, and Kazuya Yuasa, "Unification of random dynamical decoupling and the quantum Zeno effect", New Journal of Physics 24 6, 063027 (2022).

[977] Spencer T. Stober, Stuart M. Harwood, Dimitar Trenev, Panagiotis Kl. Barkoutsos, Tanvi P. Gujarati, and Sarah Mostame, "Considerations for evaluating thermodynamic properties with hybrid quantum-classical computing work flows", Physical Review A 105 1, 012425 (2022).

[978] Jihye Kim, Byungdu Oh, Yonuk Chong, Euyheon Hwang, and Daniel K. Park, "Quantum readout error mitigation via deep learning", New Journal of Physics 24 7, 073009 (2022).

[979] Thomas J. Maldonado, Johannes Flick, Stefan Krastanov, and Alexey Galda, "Error rate reduction of single-qubit gates via noise-aware decomposition into native gates", Scientific Reports 12, 6379 (2022).

[980] S. Moradi, C. Brandner, C. Spielvogel, D. Krajnc, S. Hillmich, R. Wille, W. Drexler, and L. Papp, "Clinical data classification with noisy intermediate scale quantum computers", Scientific Reports 12, 1851 (2022).

[981] Kai Sun, Ze-Yan Hao, Yan Wang, Jia-Kun Li, Xiao-Ye Xu, Jin-Shi Xu, Yong-Jian Han, Chuan-Feng Li, and Guang-Can Guo, "Optical demonstration of quantum fault-tolerant threshold", Light: Science & Applications 11 1, 203 (2022).

[982] G. Martín-Vázquez, G. Aarts, M. Müller, and A. Bermudez, "Long-Range Ising Interactions Mediated by λ ϕ<SUP>4</SUP> Fields: Probing the Renormalization of Sound in Crystals of Trapped Ions", PRX Quantum 3 2, 020352 (2022).

[983] Shuanping Du and Zhaofang Bai, "Conversion of Gaussian states under incoherent Gaussian operations", Physical Review A 105 2, 022412 (2022).

[984] Hong-Bin Chen, "Effects of symmetry breaking of the structurally-disordered Hamiltonian ensembles on the anisotropic decoherence of qubits", Scientific Reports 12, 2869 (2022).

[985] Bao Yan, Shijie Wei, Haocong Jiang, Hong Wang, Qianheng Duan, Zhi Ma, and Gui-Lu Long, "Fixed-point oblivious quantum amplitude-amplification algorithm", Scientific Reports 12, 14339 (2022).

[986] Yuki Ishiyama, Ryutaro Nagai, Shunsuke Mieda, Yuki Takei, Yuichiro Minato, and Yutaka Natsume, "Noise-robust optimization of quantum machine learning models for polymer properties using a simulator and validated on the IonQ quantum computer", Scientific Reports 12, 19003 (2022).

[987] Vinayak Dixit and Sisi Jian, "Quantum Fourier transform to estimate drive cycles", Scientific Reports 12, 654 (2022).

[988] Luogen Xu, Joseph T. Lee, and J. K. Freericks, "Decomposition of high-rank factorized unitary coupled-cluster operators using ancilla and multiqubit controlled low-rank counterparts", Physical Review A 105 1, 012406 (2022).

[989] Bill Poirier and Jonathan Jerke, "Full-dimensional Schrödinger wavefunction calculations using tensors and quantum computers: the Cartesian component-separated approach", Physical Chemistry Chemical Physics (Incorporating Faraday Transactions) 24 7, 4437 (2022).

[990] Erik Aurell, Roberto Mulet, and Jan Tuziemski, "Real-time dynamics in diluted quantum networks", Physical Review A 105 2, 022205 (2022).

[991] Igor Gaidai, Dmitri Babikov, Alexander Teplukhin, Brian K. Kendrick, Susan M. Mniszewski, Yu Zhang, Sergei Tretiak, and Pavel A. Dub, "Molecular dynamics on quantum annealers", Scientific Reports 12, 16824 (2022).

[992] Hocheol Lim, Hyeon-Nae Jeon, June-Koo Rhee, Byungdu Oh, and Kyoung Tai No, "Quantum computational study of chloride attack on chloromethane for chemical accuracy and quantum noise effects with UCCSD and k-UpCCGSD ansatzes", Scientific Reports 12, 7495 (2022).

[993] Jia-Ming Cheng, Yong-Chang Zhang, Xiang-Fa Zhou, and Zheng-Wei Zhou, "Enhancing quantum coherence of a fluxonium qubit by employing flux modulation with tunable-complex-amplitude", New Journal of Physics 24 12, 123034 (2022).

[994] Xin Zhou, Jianmin Pang, Feng Yue, Fudong Liu, Jiayu Guo, Wenfu Liu, Zhihui Song, Guoqiang Shu, Bing Xia, and Zheng Shan, "A new method of software vulnerability detection based on a quantum neural network", Scientific Reports 12, 8053 (2022).

[995] You-hang Liu, Zai-dong Qi, and Qiang Liu, "Comparison of the similarity between two quantum images", Scientific Reports 12, 7776 (2022).

[996] Wen-Hao Zhou, Madhav Krishnan Vijayan, Xiao-Wei Wang, Yong-Heng Lu, Jun Gao, Zhi-Qiang Jiao, Ruo-Jing Ren, Yi-Jun Chang, Zi-Song Shen, Peter P. Rohde, and Xian-Min Jin, "Reducing circuit complexity in optical quantum computation using 3D architectures", Optics Express 30 18, 32887 (2022).

[997] Pei-Hua Wang, Jen-Hao Chen, and Yufeng Jane Tseng, "Intelligent pharmaceutical patent search on a near-term gate-based quantum computer", Scientific Reports 12, 175 (2022).

[998] Kaifei Zhang and Jufang Zhang, "A technique for designing nano-scale circuits using a fuzzy logic and nature-inspired fish swarm optimization algorithm", Optik 268, 169756 (2022).

[999] Federico Carollo and Vincenzo Alba, "Entangled multiplets and spreading of quantum correlations in a continuously monitored tight-binding chain", Physical Review B 106 22, L220304 (2022).

[1000] Maxwell Block, Yimu Bao, Soonwon Choi, Ehud Altman, and Norman Y. Yao, "Measurement-Induced Transition in Long-Range Interacting Quantum Circuits", Physical Review Letters 128 1, 010604 (2022).

[1001] Daniel González-Cuadra, Torsten V. Zache, Jose Carrasco, Barbara Kraus, and Peter Zoller, "Hardware Efficient Quantum Simulation of Non-Abelian Gauge Theories with Qudits on Rydberg Platforms", Physical Review Letters 129 16, 160501 (2022).

[1002] Manuel Weber, David J. Luitz, and Fakher F. Assaad, "Dissipation-Induced Order: The S =1 /2 Quantum Spin Chain Coupled to an Ohmic Bath", Physical Review Letters 129 5, 056402 (2022).

[1003] Vinay Tripathi, Huo Chen, Mostafa Khezri, Ka-Wa Yip, E. M. Levenson-Falk, and Daniel A. Lidar, "Suppression of Crosstalk in Superconducting Qubits Using Dynamical Decoupling", Physical Review Applied 18 2, 024068 (2022).

[1004] Piotr Sierant, Marco Schirò, Maciej Lewenstein, and Xhek Turkeshi, "Measurement-induced phase transitions in (d +1 ) -dimensional stabilizer circuits", Physical Review B 106 21, 214316 (2022).

[1005] Bálint Koczor and Simon C. Benjamin, "Quantum natural gradient generalized to noisy and nonunitary circuits", Physical Review A 106 6, 062416 (2022).

[1006] Samuel Mugel, Carlos Kuchkovsky, Escolástico Sánchez, Samuel Fernández-Lorenzo, Jorge Luis-Hita, Enrique Lizaso, and Román Orús, "Dynamic portfolio optimization with real datasets using quantum processors and quantum-inspired tensor networks", Physical Review Research 4 1, 013006 (2022).

[1007] Lena Funcke, Tobias Hartung, Karl Jansen, Stefan Kühn, Paolo Stornati, and Xiaoyang Wang, "Measurement error mitigation in quantum computers through classical bit-flip correction", Physical Review A 105 6, 062404 (2022).

[1008] Wibe A. de Jong, Kyle Lee, James Mulligan, Mateusz Płoskoń, Felix Ringer, and Xiaojun Yao, "Quantum simulation of nonequilibrium dynamics and thermalization in the Schwinger model", Physical Review D 106 5, 054508 (2022).

[1009] Valentin Heyraud, Zejian Li, Zakari Denis, Alexandre Le Boité, and Cristiano Ciuti, "Noisy quantum kernel machines", Physical Review A 106 5, 052421 (2022).

[1010] Qing Xie, Kazuhiro Seki, and Seiji Yunoki, "Variational counterdiabatic driving of the Hubbard model for ground-state preparation", Physical Review B 106 15, 155153 (2022).

[1011] Joris Kattemölle and Jasper van Wezel, "Variational quantum eigensolver for the Heisenberg antiferromagnet on the kagome lattice", Physical Review B 106 21, 214429 (2022).

[1012] Adam Callison and Nicholas Chancellor, "Hybrid quantum-classical algorithms in the noisy intermediate-scale quantum era and beyond", Physical Review A 106 1, 010101 (2022).

[1013] Xhek Turkeshi, "Measurement-induced criticality as a data-structure transition", Physical Review B 106 14, 144313 (2022).

[1014] Pejman Jouzdani, Calvin W. Johnson, Eduardo R. Mucciolo, and Ionel Stetcu, "Alternative approach to quantum imaginary time evolution", Physical Review A 106 6, 062435 (2022).

[1015] Vincent R. Pascuzzi, Andre He, Christian W. Bauer, Wibe A. de Jong, and Benjamin Nachman, "Computationally efficient zero-noise extrapolation for quantum-gate-error mitigation", Physical Review A 105 4, 042406 (2022).

[1016] Antonio A. Mele, Glen B. Mbeng, Giuseppe E. Santoro, Mario Collura, and Pietro Torta, "Avoiding barren plateaus via transferability of smooth solutions in a Hamiltonian variational ansatz", Physical Review A 106 6, L060401 (2022).

[1017] Marc Illa and Martin J. Savage, "Basic elements for simulations of standard-model physics with quantum annealers: Multigrid and clock states", Physical Review A 106 5, 052605 (2022).

[1018] Efekan Kökcü, Thomas Steckmann, Yan Wang, J. K. Freericks, Eugene F. Dumitrescu, and Alexander F. Kemper, "Fixed Depth Hamiltonian Simulation via Cartan Decomposition", Physical Review Letters 129 7, 070501 (2022).

[1019] Efekan Kökcü, Daan Camps, Lindsay Bassman, J. K. Freericks, Wibe A. de Jong, Roel Van Beeumen, and Alexander F. Kemper, "Algebraic compression of quantum circuits for Hamiltonian evolution", Physical Review A 105 3, 032420 (2022).

[1020] Niklas Mueller, Torsten V. Zache, and Robert Ott, "Thermalization of Gauge Theories from their Entanglement Spectrum", Physical Review Letters 129 1, 011601 (2022).

[1021] Jinzhao Sun, Suguru Endo, Huiping Lin, Patrick Hayden, Vlatko Vedral, and Xiao Yuan, "Perturbative Quantum Simulation", Physical Review Letters 129 12, 120505 (2022).

[1022] Zixin Huang, Gavin K. Brennen, and Yingkai Ouyang, "Imaging Stars with Quantum Error Correction", Physical Review Letters 129 21, 210502 (2022).

[1023] Hong-Ye Hu and Yi-Zhuang You, "Hamiltonian-driven shadow tomography of quantum states", Physical Review Research 4 1, 013054 (2022).

[1024] Michael Krebsbach, Björn Trauzettel, and Alessio Calzona, "Optimization of Richardson extrapolation for quantum error mitigation", Physical Review A 106 6, 062436 (2022).

[1025] Oriel Kiss, Michele Grossi, Pavel Lougovski, Federico Sanchez, Sofia Vallecorsa, and Thomas Papenbrock, "Quantum computing of the <SUP>6</SUP>Li nucleus via ordered unitary coupled clusters", Physical Review C 106 3, 034325 (2022).

[1026] J. Rivera-Dean, Th. Lamprou, E. Pisanty, P. Stammer, A. F. Ordóñez, A. S. Maxwell, M. F. Ciappina, M. Lewenstein, and P. Tzallas, "Strong laser fields and their power to generate controllable high-photon-number coherent-state superpositions", Physical Review A 105 3, 033714 (2022).

[1027] Bo Peng, Sahil Gulania, Yuri Alexeev, and Niranjan Govind, "Quantum time dynamics employing the Yang-Baxter equation for circuit compression", Physical Review A 106 1, 012412 (2022).

[1028] Kaifeng Bu, Dax Enshan Koh, Lu Li, Qingxian Luo, and Yaobo Zhang, "Statistical complexity of quantum circuits", Physical Review A 105 6, 062431 (2022).

[1029] Kazuhiro Seki, Yuichi Otsuka, and Seiji Yunoki, "Gutzwiller wave function on a quantum computer using a discrete Hubbard-Stratonovich transformation", Physical Review B 105 15, 155119 (2022).

[1030] Kazuhiro Seki and Seiji Yunoki, "Spatial, spin, and charge symmetry projections for a Fermi-Hubbard model on a quantum computer", Physical Review A 105 3, 032419 (2022).

[1031] Max McGinley, Sebastian Leontica, Samuel J. Garratt, Jovan Jovanovic, and Steven H. Simon, "Quantifying information scrambling via classical shadow tomography on programmable quantum simulators", Physical Review A 106 1, 012441 (2022).

[1032] Giuseppe Clemente, Arianna Crippa, and Karl Jansen, "Strategies for the determination of the running coupling of (2 +1 )-dimensional QED with quantum computing", Physical Review D 106 11, 114511 (2022).

[1033] Senrui Chen, Sisi Zhou, Alireza Seif, and Liang Jiang, "Quantum advantages for Pauli channel estimation", Physical Review A 105 3, 032435 (2022).

[1034] Zhenhuan Liu, Yifan Tang, Hao Dai, Pengyu Liu, Shu Chen, and Xiongfeng Ma, "Detecting Entanglement in Quantum Many-Body Systems via Permutation Moments", Physical Review Letters 129 26, 260501 (2022).

[1035] Dimitrios Giannakis, Abbas Ourmazd, Philipp Pfeffer, Jörg Schumacher, and Joanna Slawinska, "Embedding classical dynamics in a quantum computer", Physical Review A 105 5, 052404 (2022).

[1036] Benjamin Lienhard, Antti Vepsäläinen, Luke C. G. Govia, Cole R. Hoffer, Jack Y. Qiu, Diego Ristè, Matthew Ware, David Kim, Roni Winik, Alexander Melville, Bethany Niedzielski, Jonilyn Yoder, Guilhem J. Ribeill, Thomas A. Ohki, Hari K. Krovi, Terry P. Orlando, Simon Gustavsson, and William D. Oliver, "Deep-Neural-Network Discrimination of Multiplexed Superconducting-Qubit States", Physical Review Applied 17 1, 014024 (2022).

[1037] Yuhan Huang, Qingyu Li, Xiaokai Hou, Rebing Wu, Man-Hong Yung, Abolfazl Bayat, and Xiaoting Wang, "Robust resource-efficient quantum variational ansatz through an evolutionary algorithm", Physical Review A 105 5, 052414 (2022).

[1038] Kevin Schultz, Ryan LaRose, Andrea Mari, Gregory Quiroz, Nathan Shammah, B. David Clader, and William J. Zeng, "Impact of time-correlated noise on zero-noise extrapolation", Physical Review A 106 5, 052406 (2022).

[1039] Maxime Dupont and Joel E. Moore, "Quantum criticality using a superconducting quantum processor", Physical Review B 106 4, L041109 (2022).

[1040] Brian Coyle, Mina Doosti, Elham Kashefi, and Niraj Kumar, "Progress toward practical quantum cryptanalysis by variational quantum cloning", Physical Review A 105 4, 042604 (2022).

[1041] Frédéric Sauvage and Florian Mintert, "Optimal Control of Families of Quantum Gates", Physical Review Letters 129 5, 050507 (2022).

[1042] Nikolaos K. Kollas and Dimitris Moustos, "Generation and catalysis of coherence with scalar fields", Physical Review D 105 2, 025006 (2022).

[1043] Emilie Huffman, Miguel García Vera, and Debasish Banerjee, "Toward the real-time evolution of gauge-invariant Z<SUB>2</SUB> and U (1 ) quantum link models on noisy intermediate-scale quantum hardware with error mitigation", Physical Review D 106 9, 094502 (2022).

[1044] Tobias Haug and M. S. Kim, "Natural parametrized quantum circuit", Physical Review A 106 5, 052611 (2022).

[1045] Matthew Choi, Daniel Flam-Shepherd, Thi Ha Kyaw, and Alán Aspuru-Guzik, "Learning quantum dynamics with latent neural ordinary differential equations\xC2", Physical Review A 105 4, 042403 (2022).

[1046] Hiroyuki Tezuka, Kouhei Nakaji, Takahiko Satoh, and Naoki Yamamoto, "Grover search revisited: Application to image pattern matching", Physical Review A 105 3, 032440 (2022).

[1047] K. S. C. Decker, D. M. Kennes, and C. Karrasch, "Many-body localization and the area law in two dimensions", Physical Review B 106 18, L180201 (2022).

[1048] Aydin Deger, Sthitadhi Roy, and Achilleas Lazarides, "Arresting Classical Many-Body Chaos by Kinetic Constraints", Physical Review Letters 129 16, 160601 (2022).

[1049] Yinqi Chen, Konstantin N. Nesterov, Vladimir E. Manucharyan, and Maxim G. Vavilov, "Fast Flux Entangling Gate for Fluxonium Circuits", Physical Review Applied 18 3, 034027 (2022).

[1050] Bojia Duan and Chang-Yu Hsieh, "Hamiltonian-based data loading with shallow quantum circuits", Physical Review A 106 5, 052422 (2022).

[1051] Michael Fellner, Anette Messinger, Kilian Ender, and Wolfgang Lechner, "Universal Parity Quantum Computing", Physical Review Letters 129 18, 180503 (2022).

[1052] Plato Deliyannis, James Sud, Diana Chamaki, Zoë Webb-Mack, Christian W. Bauer, and Benjamin Nachman, "Improving quantum simulation efficiency of final state radiation with dynamic quantum circuits", Physical Review D 106 3, 036007 (2022).

[1053] Tarun Dutta, Adrián Pérez-Salinas, Jasper Phua Sing Cheng, José Ignacio Latorre, and Manas Mukherjee, "Single-qubit universal classifier implemented on an ion-trap quantum device", Physical Review A 106 1, 012411 (2022).

[1054] Amit Saha, Ritajit Majumdar, Debasri Saha, Amlan Chakrabarti, and Susmita Sur-Kolay, "Asymptotically improved circuit for a d -ary Grover's algorithm with advanced decomposition of the n -qudit Toffoli gate", Physical Review A 105 6, 062453 (2022).

[1055] Kishor Bharti, Tobias Haug, Vlatko Vedral, and Leong-Chuan Kwek, "Noisy intermediate-scale quantum algorithm for semidefinite programming", Physical Review A 105 5, 052445 (2022).

[1056] Pengyu Liu, Zhenhuan Liu, Shu Chen, and Xiongfeng Ma, "Fundamental Limitation on the Detectability of Entanglement", Physical Review Letters 129 23, 230503 (2022).

[1057] Jan Lukas Bosse and Ashley Montanaro, "Probing ground-state properties of the kagome antiferromagnetic Heisenberg model using the variational quantum eigensolver", Physical Review B 105 9, 094409 (2022).

[1058] Emil Mathew and Indrakshi Raychowdhury, "Protecting local and global symmetries in simulating (1 +1 )D non-Abelian gauge theories", Physical Review D 106 5, 054510 (2022).

[1059] Yu Pan, Yifan Tong, and Yi Yang, "Automatic depth optimization for a quantum approximate optimization algorithm", Physical Review A 105 3, 032433 (2022).

[1060] Markus Schmitt and Zala Lenarčič, "From observations to complexity of quantum states via unsupervised learning", Physical Review B 106 4, L041110 (2022).

[1061] Mirko Consiglio, Tony J. G. Apollaro, and Marcin Wieśniak, "Variational approach to the quantum separability problem", Physical Review A 106 6, 062413 (2022).

[1062] Jiawei Tan, Ligang Xiao, Daowen Qiu, Le Luo, and Paulo Mateus, "Distributed quantum algorithm for Simon's problem", Physical Review A 106 3, 032417 (2022).

[1063] Vinayak Jagadish, R. Srikanth, and Francesco Petruccione, "Measure of invertible dynamical maps under convex combinations of noninvertible dynamical maps", Physical Review A 106 1, 012438 (2022).

[1064] Rawad Mezher, James Mills, and Elham Kashefi, "Mitigating errors by quantum verification and postselection", Physical Review A 105 5, 052608 (2022).

[1065] Artur Soriani, Pierre Nazé, Marcus V. S. Bonança, Bartłomiej Gardas, and Sebastian Deffner, "Three phases of quantum annealing: Fast, slow, and very slow", Physical Review A 105 4, 042423 (2022).

[1066] Hersh Singh, "Qubit regularized O (N ) nonlinear sigma models", Physical Review D 105 11, 114509 (2022).

[1067] Alicia B. Magann, Kenneth M. Rudinger, Matthew D. Grace, and Mohan Sarovar, "Lyapunov-control-inspired strategies for quantum combinatorial optimization", Physical Review A 106 6, 062414 (2022).

[1068] Alessandro Santini and Vittorio Vitale, "Experimental violations of Leggett-Garg inequalities on a quantum computer", Physical Review A 105 3, 032610 (2022).

[1069] LeeAnn M. Sager and David A. Mazziotti, "Cooper-pair condensates with nonclassical long-range order on quantum devices", Physical Review Research 4 1, 013003 (2022).

[1070] Bruno Murta and J. Fernández-Rossier, "One-to-one correspondence between thermal structure factors and coupling constants of general bilinear Hamiltonians", Physical Review E 105 6, L062101 (2022).

[1071] Ziwen Huang, Xinyuan You, Ugur Alyanak, Alexander Romanenko, Anna Grassellino, and Shaojiang Zhu, "High-Order Qubit Dephasing at Sweet Spots by Non-Gaussian Fluctuators: Symmetry Breaking and Floquet Protection", Physical Review Applied 18 6, L061001 (2022).

[1072] Yahui Chai, Yong-Jian Han, Yu-Chun Wu, Ye Li, Menghan Dou, and Guo-Ping Guo, "Shortcuts to the quantum approximate optimization algorithm", Physical Review A 105 4, 042415 (2022).

[1073] Nobuyuki Okuma and Yuya O. Nakagawa, "Nonnormal Hamiltonian dynamics in quantum systems and its realization on quantum computers", Physical Review B 105 5, 054304 (2022).

[1074] P. Besserve and T. Ayral, "Unraveling correlated material properties with noisy quantum computers: Natural orbitalized variational quantum eigensolving of extended impurity models within a slave-boson approach", Physical Review B 105 11, 115108 (2022).

[1075] Christina Psaroudaki and Christos Panagopoulos, "Skyrmion helicity: Quantization and quantum tunneling effects", Physical Review B 106 10, 104422 (2022).

[1076] Isabel Nha Minh Le, Julian D. Teske, Tobias Hangleiter, Pascal Cerfontaine, and Hendrik Bluhm, "Analytic Filter-Function Derivatives for Quantum Optimal Control", Physical Review Applied 17 2, 024006 (2022).

[1077] Luca Chirolli, Norman Y. Yao, and Joel E. Moore, "SWAP Gate between a Majorana Qubit and a Parity-Protected Superconducting Qubit", Physical Review Letters 129 17, 177701 (2022).

[1078] Chong Wang, Linhu Li, Jiangbin Gong, and Yu-xi Liu, "Arbitrary entangled state transfer via a topological qubit chain", Physical Review A 106 5, 052411 (2022).

[1079] Yordan S. Yordanov, Crispin H. W. Barnes, and David R. M. Arvidsson-Shukur, "Molecular-excited-state calculations with the qubit-excitation-based adaptive variational quantum eigensolver protocol", Physical Review A 106 3, 032434 (2022).

[1080] Bryan T. Gard and Adam M. Meier, "Classically efficient quantum scalable Fermi-Hubbard benchmark", Physical Review A 105 4, 042602 (2022).

[1081] A. D. Muñoz-Moller, L. Pereira, L. Zambrano, J. Cortés-Vega, and A. Delgado, "Variational Determination of Multiqubit Geometrical Entanglement in Noisy Intermediate-Scale Quantum Computers", Physical Review Applied 18 2, 024048 (2022).

[1082] Philipp M. Mutter and Guido Burkard, "Fingerprints of Qubit Noise in Transient Cavity Transmission", Physical Review Letters 128 23, 236801 (2022).

[1083] Meng Zhang, Chao Wang, Shaojun Dong, Hao Zhang, Yongjian Han, and Lixin He, "Entanglement entropy scaling of noisy random quantum circuits in two dimensions", Physical Review A 106 5, 052430 (2022).

[1084] Arvid Rolander, Adam Kinos, and Andreas Walther, "Quantum error correction in the noisy intermediate-scale quantum regime for sequential quantum computing", Physical Review A 105 6, 062604 (2022).

[1085] Prithvi Gundlapalli and Junyi Lee, "Deterministic and Entanglement-Efficient Preparation of Amplitude-Encoded Quantum Registers", Physical Review Applied 18 2, 024013 (2022).

[1086] K. J. Harikrishnan and Amit Kumar Pal, "Distinguishing phases via non-Markovian dynamics of entanglement in topological quantum codes under parallel magnetic field", Physical Review A 105 5, 052421 (2022).

[1087] Bin Xu and Wei Xue, "(3 +1 )-dimensional Schwinger pair production with quantum computers", Physical Review D 106 11, 116007 (2022).

[1088] Andreas Hartmann, Glen Bigan Mbeng, and Wolfgang Lechner, "Polynomial scaling enhancement in the ground-state preparation of Ising spin models via counterdiabatic driving", Physical Review A 105 2, 022614 (2022).

[1089] Yuan Yao, Pierre Cussenot, Richard A. Wolf, and Filippo Miatto, "Complex natural gradient optimization for optical quantum circuit design", Physical Review A 105 5, 052402 (2022).

[1090] Lewis W. Anderson, Martin Kiffner, Panagiotis Kl. Barkoutsos, Ivano Tavernelli, Jason Crain, and Dieter Jaksch, "Coarse-grained intermolecular interactions on quantum processors", Physical Review A 105 6, 062409 (2022).

[1091] Michele Vischi, Luca Ferialdi, Andrea Trombettoni, and Angelo Bassi, "Possible limits on superconducting quantum computers from spontaneous wave-function collapse models", Physical Review B 106 17, 174506 (2022).

[1092] Álvaro Gómez-León, Tomás Ramos, Diego Porras, and Alejandro González-Tudela, "Decimation technique for open quantum systems: A case study with driven-dissipative bosonic chains", Physical Review A 105 5, 052223 (2022).

[1093] Luca Erhart, Kosuke Mitarai, Wataru Mizukami, and Keisuke Fujii, "Constructing Local Bases for a Deep Variational Quantum Eigensolver for Molecular Systems", Physical Review Applied 18 6, 064051 (2022).

[1094] Christian Boudreault, Hichem Eleuch, Michael Hilke, and Richard MacKenzie, "Universal quantum computation with symmetric qubit clusters coupled to an environment", Physical Review A 106 6, 062610 (2022).

[1095] Min-Quan He, Dan-Bo Zhang, and Z. D. Wang, "Quantum Gaussian filter for exploring ground-state properties", Physical Review A 106 3, 032420 (2022).

[1096] Shu Kanno, Suguru Endo, Takeru Utsumi, and Tomofumi Tada, "Resource estimations for the Hamiltonian simulation in correlated electron materials", Physical Review A 106 1, 012612 (2022).

[1097] V. M. Bastidas, T. Haug, C. Gravel, L. -C. Kwek, W. J. Munro, and Kae Nemoto, "Stroboscopic Hamiltonian engineering in the low-frequency regime with a one-dimensional quantum processor", Physical Review B 105 7, 075140 (2022).

[1098] David Joseph, Antonio J. Martinez, Cong Ling, and Florian Mintert, "Quantum mean-value approximator for hard integer-value problems", Physical Review A 105 5, 052419 (2022).

[1099] Emanuel F. de Lima, Marllos E. F. Fernandes, and Leonardo K. Castelano, "Quantum computing with two independent control functions: Optimal solutions to the teleportation protocol", Physical Review A 105 3, 032454 (2022).

[1100] Paolo Braccia, Leonardo Banchi, and Filippo Caruso, "Quantum Noise Sensing by Generating Fake Noise", Physical Review Applied 17 2, 024002 (2022).

[1101] En-Jui Kuo and Hossein Dehghani, "Unsupervised learning of interacting topological and symmetry-breaking phase transitions", Physical Review B 105 23, 235136 (2022).

[1102] A. S. Kardashin, A. V. Vlasova, A. A. Pervishko, D. Yudin, and J. D. Biamonte, "Quantum-machine-learning channel discrimination", Physical Review A 106 3, 032409 (2022).

[1103] Leela Ganesh Chandra Lakkaraju, Srijon Ghosh, Debasis Sadhukhan, and Aditi SenDe, "Mimicking quantum correlation of a long-range Hamiltonian by finite-range interactions", Physical Review A 106 5, 052425 (2022).

[1104] Shichuan Xue, Yizhi Wang, Junwei Zhan, Yaxuan Wang, Ru Zeng, Jiangfang Ding, Weixu Shi, Yong Liu, Yingwen Liu, Anqi Huang, Guangyao Huang, Chunlin Yu, Dongyang Wang, Xiang Fu, Xiaogang Qiang, Ping Xu, Mingtang Deng, Xuejun Yang, and Junjie Wu, "Variational Entanglement-Assisted Quantum Process Tomography with Arbitrary Ancillary Qubits", Physical Review Letters 129 13, 133601 (2022).

[1105] Laura Gentini, Alessandro Cuccoli, and Leonardo Banchi, "Variational Adiabatic Gauge Transformation on Real Quantum Hardware for Effective Low-Energy Hamiltonians and Accurate Diagonalization", Physical Review Applied 18 3, 034025 (2022).

[1106] Zhi-Cheng Yang, "Distinction between transport and Rényi entropy growth in kinetically constrained models", Physical Review B 106 22, L220303 (2022).

[1107] E. Bahnsen, S. E. Rasmussen, N. J. S. Loft, and N. T. Zinner, "Application of the Diamond Gate in Quantum Fourier Transformations and Quantum Machine Learning", Physical Review Applied 17 2, 024053 (2022).

[1108] Fernando Martínez-García, Lukas Gerster, Davide Vodola, Pavel Hrmo, Thomas Monz, Philipp Schindler, and Markus Müller, "Analytical and experimental study of center-line miscalibrations in Mølmer-Sørensen gates", Physical Review A 105 3, 032437 (2022).

[1109] Ruoshui Wang, Timothy H. Hsieh, and Guifré Vidal, "Bang-bang algorithms for quantum many-body ground states: A tensor network exploration", Physical Review B 106 19, 195133 (2022).

[1110] Jian Lin, Zhengfeng Zhang, Junping Zhang, and Xiaopeng Li, "Hard-instance learning for quantum adiabatic prime factorization", Physical Review A 105 6, 062455 (2022).

[1111] Shashank Kumar Ranu and Daniel D. Stancil, "Single-magnon excited states of a Heisenberg spin chain using a quantum computer", Physical Review B 106 18, 184402 (2022).

[1112] Amit Saha, Debasri Saha, and Amlan Chakrabarti, "Moving quantum states without SWAP via intermediate higher-dimensional qudits", Physical Review A 106 1, 012429 (2022).

[1113] Yiyou Chen, Hideyuki Miyahara, Louis-S. Bouchard, and Vwani Roychowdhury, "Quantum approximation of normalized Schatten norms and applications to learning", Physical Review A 106 5, 052409 (2022).

[1114] Catherine Keele and Alastair Kay, "Noise-reducing encoding strategies for spin chains", Physical Review A 105 3, 032613 (2022).

[1115] Ohad Shpielberg, "Power-law decay of entanglement quantifiers in a single agent coupled to a many-body system", Physical Review A 105 4, 042420 (2022).

[1116] Yuxuan Zhang, "Straddling-gates problem in multipartite quantum systems", Physical Review A 105 6, 062430 (2022).

[1117] Aritra Das and Barry C. Sanders, "Blind quantum factorization of 21", Physical Review A 106 1, 012421 (2022).

[1118] N. Barraza, C. -Y. Pan, L. Lamata, E. Solano, and F. Albarrán-Arriagada, "Adaptive random quantum eigensolver", Physical Review A 105 5, 052406 (2022).

[1119] Ruge Lin and Weiqiang Wen, "Quantum computation capability verification protocol for noisy intermediate-scale quantum devices with the dihedral coset problem", Physical Review A 106 1, 012430 (2022).

[1120] Ohad Shpielberg, "Universal entanglement entropy in the ground state of biased bipartite systems", Physical Review A 106 3, L030401 (2022).

[1121] Dongni Chen, Si Luo, Ying-Dan Wang, Stefano Chesi, and Mahn-Soo Choi, "Geometric manipulation of a decoherence-free subspace in atomic ensembles", Physical Review A 105 2, 022627 (2022).

[1122] J. A. Montañez-Barrera, Michael R. von Spakovsky, Cesar E. Damian Ascencio, and Sergio Cano-Andrade, "Decoherence predictions in a superconducting quantum processor using the steepest-entropy-ascent quantum thermodynamics framework", Physical Review A 106 3, 032426 (2022).

[1123] Fumiyoshi Kobayashi, Kosuke Mitarai, and Keisuke Fujii, "Parent Hamiltonian as a benchmark problem for variational quantum eigensolvers", Physical Review A 105 5, 052415 (2022).

[1124] Utkarsh Agrawal, Aidan Zabalo, Kun Chen, Justin H. Wilson, Andrew C. Potter, J. H. Pixley, Sarang Gopalakrishnan, and Romain Vasseur, "Entanglement and Charge-Sharpening Transitions in U(1) Symmetric Monitored Quantum Circuits", Physical Review X 12 4, 041002 (2022).

[1125] Matteo Ippoliti, Tibor Rakovszky, and Vedika Khemani, "Fractal, Logarithmic, and Volume-Law Entangled Nonthermal Steady States via Spacetime Duality", Physical Review X 12 1, 011045 (2022).

[1126] Andrew Arrasmith, Zoë Holmes, M. Cerezo, and Patrick J. Coles, "Equivalence of quantum barren plateaus to cost concentration and narrow gorges", Quantum Science and Technology 7 4, 045015 (2022).

[1127] Adam Smith, Bernhard Jobst, Andrew G. Green, and Frank Pollmann, "Crossing a topological phase transition with a quantum computer", Physical Review Research 4 2, L022020 (2022).

[1128] Shi-Xin Zhang, Chang-Yu Hsieh, Shengyu Zhang, and Hong Yao, "Differentiable quantum architecture search", Quantum Science and Technology 7 4, 045023 (2022).

[1129] Thomas Schuster, Bryce Kobrin, Ping Gao, Iris Cong, Emil T. Khabiboulline, Norbert M. Linke, Mikhail D. Lukin, Christopher Monroe, Beni Yoshida, and Norman Y. Yao, "Many-Body Quantum Teleportation via Operator Spreading in the Traversable Wormhole Protocol", Physical Review X 12 3, 031013 (2022).

[1130] Jonathan Wurtz and Peter J. Love, "Counterdiabaticity and the quantum approximate optimization algorithm", Quantum 6, 635 (2022).

[1131] Kevin Singh, Shraddha Anand, Andrew Pocklington, Jordan T. Kemp, and Hannes Bernien, "Dual-Element, Two-Dimensional Atom Array with Continuous-Mode Operation", Physical Review X 12 1, 011040 (2022).

[1132] Zongkang Zhang, Yongdan Yang, Xiaosi Xu, and Ying Li, "Quantum algorithms for Schrieffer-Wolff transformation", Physical Review Research 4 4, 043023 (2022).

[1133] Andrea Skolik, Sofiene Jerbi, and Vedran Dunjko, "Quantum agents in the Gym: a variational quantum algorithm for deep Q-learning", Quantum 6, 720 (2022).

[1134] Liangliang Fan and Haozhen Situ, "Compact data encoding for data re-uploading quantum classifier", Quantum Information Processing 21 3, 87 (2022).

[1135] Sven Jandura and Guido Pupillo, "Time-Optimal Two- and Three-Qubit Gates for Rydberg Atoms", Quantum 6, 712 (2022).

[1136] Bálint Koczor and Simon C. Benjamin, "Quantum analytic descent", Physical Review Research 4 2, 023017 (2022).

[1137] Dax Enshan Koh and Sabee Grewal, "Classical Shadows With Noise", Quantum 6, 776 (2022).

[1138] I. -Chi Chen, Benjamin Burdick, Yongxin Yao, Peter P. Orth, and Thomas Iadecola, "Error-mitigated simulation of quantum many-body scars on quantum computers with pulse-level control", Physical Review Research 4 4, 043027 (2022).

[1139] Karolina Kolos, Vladimir Sobes, Ramona Vogt, Catherine E. Romano, Michael S. Smith, Lee A. Bernstein, David A. Brown, Mary T. Burkey, Yaron Danon, Mohamed A. Elsawi, Bethany L. Goldblum, Lawrence H. Heilbronn, Susan L. Hogle, Jesson Hutchinson, Ben Loer, Elizabeth A. McCutchan, Matthew R. Mumpower, Ellen M. O'Brien, Catherine Percher, Patrick N. Peplowski, Jennifer J. Ressler, Nicolas Schunck, Nicholas W. Thompson, Andrew S. Voyles, William Wieselquist, and Michael Zerkle, "Current nuclear data needs for applications", Physical Review Research 4 2, 021001 (2022).

[1140] Paul K. Faehrmann, Mark Steudtner, Richard Kueng, Maria Kieferova, and Jens Eisert, "Randomizing multi-product formulas for Hamiltonian simulation", Quantum 6, 806 (2022).

[1141] Tobias Haug and Kishor Bharti, "Generalized quantum assisted simulator", Quantum Science and Technology 7 4, 045019 (2022).

[1142] N. N. Hegade, P. Chandarana, K. Paul, Xi Chen, F. Albarrán-Arriagada, and E. Solano, "Portfolio optimization with digitized counterdiabatic quantum algorithms", Physical Review Research 4 4, 043204 (2022).

[1143] P. Chandarana, N. N. Hegade, K. Paul, F. Albarrán-Arriagada, E. Solano, A. del Campo, and Xi Chen, "Digitized-counterdiabatic quantum approximate optimization algorithm", Physical Review Research 4 1, 013141 (2022).

[1144] Manuel S. Rudolph, Ntwali Bashige Toussaint, Amara Katabarwa, Sonika Johri, Borja Peropadre, and Alejandro Perdomo-Ortiz, "Generation of High-Resolution Handwritten Digits with an Ion-Trap Quantum Computer", Physical Review X 12 3, 031010 (2022).

[1145] M. Kjaergaard, M. E. Schwartz, A. Greene, G. O. Samach, A. Bengtsson, M. O'Keeffe, C. M. McNally, J. Braumüller, D. K. Kim, P. Krantz, M. Marvian, A. Melville, B. M. Niedzielski, Y. Sung, R. Winik, J. Yoder, D. Rosenberg, K. Obenland, S. Lloyd, T. P. Orlando, I. Marvian, S. Gustavsson, and W. D. Oliver, "Demonstration of Density Matrix Exponentiation Using a Superconducting Quantum Processor", Physical Review X 12 1, 011005 (2022).

[1146] Jérôme F. Gonthier, Maxwell D. Radin, Corneliu Buda, Eric J. Doskocil, Clena M. Abuan, and Jhonathan Romero, "Measurements as a roadblock to near-term practical quantum advantage in chemistry: Resource analysis", Physical Review Research 4 3, 033154 (2022).

[1147] Jason Larkin, Matías Jonsson, Daniel Justice, and Gian Giacomo Guerreschi, "Evaluation of QAOA based on the approximation ratio of individual samples", Quantum Science and Technology 7 4, 045014 (2022).

[1148] Tyson Jones and Simon C. Benjamin, "Robust quantum compilation and circuit optimisation via energy minimisation", Quantum 6, 628 (2022).

[1149] Taylor L. Patti, Jean Kossaifi, Anima Anandkumar, and Susanne F. Yelin, "Variational quantum optimization with multibasis encodings", Physical Review Research 4 3, 033142 (2022).

[1150] Gregory Boyd and Bálint Koczor, "Training Variational Quantum Circuits with CoVaR: Covariance Root Finding with Classical Shadows", Physical Review X 12 4, 041022 (2022).

[1151] Zixuan Hu, Kade Head-Marsden, David A. Mazziotti, Prineha Narang, and Sabre Kais, "A general quantum algorithm for open quantum dynamics demonstrated with the Fenna-Matthews-Olson complex", Quantum 6, 726 (2022).

[1152] Ranyiliu Chen, Zhixin Song, Xuanqiang Zhao, and Xin Wang, "Variational quantum algorithms for trace distance and fidelity estimation", Quantum Science and Technology 7 1, 015019 (2022).

[1153] Henrique Silvério, Sebastián Grijalva, Constantin Dalyac, Lucas Leclerc, Peter J. Karalekas, Nathan Shammah, Mourad Beji, Louis-Paul Henry, and Loïc Henriet, "Pulser: An open-source package for the design of pulse sequences in programmable neutral-atom arrays", Quantum 6, 629 (2022).

[1154] Carlos Bravo-Prieto, Julien Baglio, Marco Cè, Anthony Francis, Dorota M. Grabowska, and Stefano Carrazza, "Style-based quantum generative adversarial networks for Monte Carlo events", Quantum 6, 777 (2022).

[1155] Jean-Loup Ville, Alexis Morvan, Akel Hashim, Ravi K. Naik, Marie Lu, Bradley Mitchell, John-Mark Kreikebaum, Kevin P. O'Brien, Joel J. Wallman, Ian Hincks, Joseph Emerson, Ethan Smith, Ed Younis, Costin Iancu, David I. Santiago, and Irfan Siddiqi, "Leveraging randomized compiling for the quantum imaginary-time-evolution algorithm", Physical Review Research 4 3, 033140 (2022).

[1156] Kazuki Ikeda and Shoto Aoki, "Theory of quantum games and quantum economic behavior", Quantum Information Processing 21 1, 27 (2022).

[1157] Noah F. Berthusen, Thaís V. Trevisan, Thomas Iadecola, and Peter P. Orth, "Quantum dynamics simulations beyond the coherence time on noisy intermediate-scale quantum hardware by variational Trotter compression", Physical Review Research 4 2, 023097 (2022).

[1158] Alexis Morvan, Larry Chen, Jeffrey M. Larson, David I. Santiago, and Irfan Siddiqi, "Optimizing frequency allocation for fixed-frequency superconducting quantum processors", Physical Review Research 4 2, 023079 (2022).

[1159] Wenyang Qian, Robert Basili, Soham Pal, Glenn Luecke, and James P. Vary, "Solving hadron structures using the basis light-front quantization approach on quantum computers", Physical Review Research 4 4, 043193 (2022).

[1160] Tudor Giurgica-Tiron, Iordanis Kerenidis, Farrokh Labib, Anupam Prakash, and William Zeng, "Low depth algorithms for quantum amplitude estimation", Quantum 6, 745 (2022).

[1161] Lucas Slattery, Benjamin Villalonga, and Bryan K. Clark, "Unitary block optimization for variational quantum algorithms", Physical Review Research 4 2, 023072 (2022).

[1162] Sijia Gao, Fergus Hayes, Sarah Croke, Chris Messenger, and John Veitch, "Quantum algorithm for gravitational-wave matched filtering", Physical Review Research 4 2, 023006 (2022).

[1163] Jacob L. Beckey, M. Cerezo, Akira Sone, and Patrick J. Coles, "Variational quantum algorithm for estimating the quantum Fisher information", Physical Review Research 4 1, 013083 (2022).

[1164] Özlem Salehi, Adam Glos, and Jarosław Adam Miszczak, "Unconstrained binary models of the travelling salesman problem variants for quantum optimization", Quantum Information Processing 21 2, 67 (2022).

[1165] Boxi Li, Shahnawaz Ahmed, Sidhant Saraogi, Neill Lambert, Franco Nori, Alexander Pitchford, and Nathan Shammah, "Pulse-level noisy quantum circuits with QuTiP", Quantum 6, 630 (2022).

[1166] Yohei Ibe, Yuya O. Nakagawa, Nathan Earnest, Takahiro Yamamoto, Kosuke Mitarai, Qi Gao, and Takao Kobayashi, "Calculating transition amplitudes by variational quantum deflation", Physical Review Research 4 1, 013173 (2022).

[1167] Masaya Kohda, Ryosuke Imai, Keita Kanno, Kosuke Mitarai, Wataru Mizukami, and Yuya O. Nakagawa, "Quantum expectation-value estimation by computational basis sampling", Physical Review Research 4 3, 033173 (2022).

[1168] Anthony W. Schlimgen, Kade Head-Marsden, LeeAnn M. Sager, Prineha Narang, and David A. Mazziotti, "Quantum simulation of the Lindblad equation using a unitary decomposition of operators", Physical Review Research 4 2, 023216 (2022).

[1169] Samuel Yen-Chi Chen, Tzu-Chieh Wei, Chao Zhang, Haiwang Yu, and Shinjae Yoo, "Quantum convolutional neural networks for high energy physics data analysis", Physical Review Research 4 1, 013231 (2022).

[1170] Michael Meth, Viacheslav Kuzmin, Rick van Bijnen, Lukas Postler, Roman Stricker, Rainer Blatt, Martin Ringbauer, Thomas Monz, Pietro Silvi, and Philipp Schindler, "Probing Phases of Quantum Matter with an Ion-Trap Tensor-Network Quantum Eigensolver", Physical Review X 12 4, 041035 (2022).

[1171] Rihito Sakurai, Wataru Mizukami, and Hiroshi Shinaoka, "Hybrid quantum-classical algorithm for computing imaginary-time correlation functions", Physical Review Research 4 2, 023219 (2022).

[1172] Zhenning Liu and Alexandru Gheorghiu, "Depth-efficient proofs of quantumness", Quantum 6, 807 (2022).

[1173] Dmitry A. Fedorov, Yuri Alexeev, Stephen K. Gray, and Matthew Otten, "Unitary Selective Coupled-Cluster Method", Quantum 6, 703 (2022).

[1174] Takashi Tsuchimochi, Masaki Taii, Taisei Nishimaki, and Seiichiro L. Ten-no, "Adaptive construction of shallower quantum circuits with quantum spin projection for fermionic systems", Physical Review Research 4 3, 033100 (2022).

[1175] Kian Hwee Lim, Tobias Haug, Leong Chuan Kwek, and Kishor Bharti, "Fast-forwarding with NISQ processors without feedback loop", Quantum Science and Technology 7 1, 015001 (2022).

[1176] W. D. Kalfus, G. J. Ribeill, G. E. Rowlands, H. K. Krovi, T. A. Ohki, and L. C. G. Govia, "Hilbert space as a computational resource in reservoir computing", Physical Review Research 4 3, 033007 (2022).

[1177] Kentaro Yamamoto, David Zsolt Manrique, Irfan T. Khan, Hideaki Sawada, and David Muñoz Ramo, "Quantum hardware calculations of periodic systems with partition-measurement symmetry verification: Simplified models of hydrogen chain and iron crystals", Physical Review Research 4 3, 033110 (2022).

[1178] Jinyoung Ha, Jonghyun Lee, and Jun Heo, "Resource analysis of quantum computing with noisy qubits for Shor's factoring algorithms", Quantum Information Processing 21 2, 60 (2022).

[1179] Siddharth Dangwal, Ritvik Sharma, and Debanjan Bhowmik, "Fast-QTrain: an algorithm for fast training of variational classifiers", Quantum Information Processing 21 5, 189 (2022).

[1180] Akel Hashim, Rich Rines, Victory Omole, Ravi K. Naik, John Mark Kreikebaum, David I. Santiago, Frederic T. Chong, Irfan Siddiqi, and Pranav Gokhale, "Optimized SWAP networks with equivalent circuit averaging for QAOA", Physical Review Research 4 3, 033028 (2022).

[1181] Manuel G. Algaba, Mario Ponce-Martinez, Carlos Munuera-Javaloy, Vicente Pina-Canelles, Manish J. Thapa, Bruno G. Taketani, Martin Leib, Inés de Vega, Jorge Casanova, and Hermanni Heimonen, "Co-Design quantum simulation of nanoscale NMR", Physical Review Research 4 4, 043089 (2022).

[1182] Jin-Min Liang, Shu-Qian Shen, Ming Li, and Shao-Ming Fei, "Quantum algorithms for the generalized eigenvalue problem", Quantum Information Processing 21 1, 23 (2022).

[1183] Vivien Vandaele, Simon Martiel, and Timothée Goubault de Brugière, "Phase polynomials synthesis algorithms for NISQ architectures and beyond", Quantum Science and Technology 7 4, 045027 (2022).

[1184] Baptiste Anselme Martin, Pascal Simon, and Marko J. Rančić, "Simulating strongly interacting Hubbard chains with the variational Hamiltonian ansatz on a quantum computer", Physical Review Research 4 2, 023190 (2022).

[1185] Quancheng Liu, Klaus Ziegler, David A. Kessler, and Eli Barkai, "Driving quantum systems with periodic conditional measurements", Physical Review Research 4 2, 023129 (2022).

[1186] Thomas Hubregtsen, Frederik Wilde, Shozab Qasim, and Jens Eisert, "Single-component gradient rules for variational quantum algorithms", Quantum Science and Technology 7 3, 035008 (2022).

[1187] Jacopo Rizzo, Francesco Libbi, Francesco Tacchino, Pauline J. Ollitrault, Nicola Marzari, and Ivano Tavernelli, "One-particle Green's functions from the quantum equation of motion algorithm", Physical Review Research 4 4, 043011 (2022).

[1188] Stavros Efthymiou, Marco Lazzarin, Andrea Pasquale, and Stefano Carrazza, "Quantum simulation with just-in-time compilation", Quantum 6, 814 (2022).

[1189] Yunlong Yu, Chenfeng Cao, Carter Dewey, Xiang-Bin Wang, Nic Shannon, and Robert Joynt, "Quantum approximate optimization algorithm with adaptive bias fields", Physical Review Research 4 2, 023249 (2022).

[1190] Philipp Pfeffer, Florian Heyder, and Jörg Schumacher, "Hybrid quantum-classical reservoir computing of thermal convection flow", Physical Review Research 4 3, 033176 (2022).

[1191] Toni L. Heugel, Oded Zilberberg, Christian Marty, R. Chitra, and Alexander Eichler, "Ising machines with strong bilinear coupling", Physical Review Research 4 1, 013149 (2022).

[1192] Enrico Fontana, M. Cerezo, Andrew Arrasmith, Ivan Rungger, and Patrick J. Coles, "Non-trivial symmetries in quantum landscapes and their resilience to quantum noise", Quantum 6, 804 (2022).

[1193] R. S. Amal and J. Solomon Ivan, "A quantum genetic algorithm for optimization problems on the Bloch sphere", Quantum Information Processing 21 2, 43 (2022).

[1194] Alexey E. Rastegin and Anzhelika M. Shemet, "Quantum search degeneration under amplitude noise in queries to the oracle", Quantum Information Processing 21 5, 158 (2022).

[1195] Zidu Liu, L. -M. Duan, and Dong-Ling Deng, "Solving quantum master equations with deep quantum neural networks", Physical Review Research 4 1, 013097 (2022).

[1196] Utkan Güngördü and J. P. Kestner, "Robust quantum gates using smooth pulses and physics-informed neural networks", Physical Review Research 4 2, 023155 (2022).

[1197] John P. T. Stenger, Gilad Ben-Shach, David Pekker, and Nicholas T. Bronn, "Simulating spectroscopy experiments with a superconducting quantum computer", Physical Review Research 4 4, 043106 (2022).

[1198] Carsten Blank, Adenilton J. da Silva, Lucas P. de Albuquerque, Francesco Petruccione, and Daniel K. Park, "Compact quantum kernel-based binary classifier", Quantum Science and Technology 7 4, 045007 (2022).

[1199] Basudha Srivastava, Anton Frisk Kockum, and Mats Granath, "The XYZ2 hexagonal stabilizer code", Quantum 6, 698 (2022).

[1200] Tinggui Zhang, Naihuan Jing, and Shao-Ming Fei, "Quantum separability criteria based on realignment moments", Quantum Information Processing 21 8, 276 (2022).

[1201] Marco Maronese, Claudio Destri, and Enrico Prati, "Quantum activation functions for quantum neural networks", Quantum Information Processing 21 4, 128 (2022).

[1202] Zhiyuan Yao, Lei Pan, Shang Liu, and Pengfei Zhang, "Bounding entanglement entropy using zeros of local correlation matrices", Physical Review Research 4 4, L042037 (2022).

[1203] Andrey Zhukov and Walter Pogosov, "Quantum error reduction with deep neural network applied at the post-processing stage", Quantum Information Processing 21 3, 93 (2022).

[1204] Ioannis Kolotouros and Petros Wallden, "Evolving objective function for improved variational quantum optimization", Physical Review Research 4 2, 023225 (2022).

[1205] Kevin Mato, Riccardo Mengoni, Daniele Ottaviani, and Gianluca Palermo, "Quantum molecular unfolding", Quantum Science and Technology 7 3, 035020 (2022).

[1206] Obinna Abah, Gabriele De Chiara, Mauro Paternostro, and Ricardo Puebla, "Harnessing nonadiabatic excitations promoted by a quantum critical point: Quantum battery and spin squeezing", Physical Review Research 4 2, L022017 (2022).

[1207] Ruho Kondo, Yuki Sato, Satoshi Koide, Seiji Kajita, and Hideki Takamatsu, "Computationally Efficient Quantum Expectation with Extended Bell Measurements", Quantum 6, 688 (2022).

[1208] Lidia Stocker, Stefan H. Sack, Michael S. Ferguson, and Oded Zilberberg, "Entanglement-based observables for quantum impurities", Physical Review Research 4 4, 043177 (2022).

[1209] Ian MacCormack, Conor Delaney, Alexey Galda, Nidhi Aggarwal, and Prineha Narang, "Branching quantum convolutional neural networks", Physical Review Research 4 1, 013117 (2022).

[1210] Carolyn Ten Holter, Philip Inglesant, Rupesh Srivastava, and Marina Jirotka, "Bridging the quantum divides: a chance to repair classic(al) mistakes?", Quantum Science and Technology 7 4, 044006 (2022).

[1211] Shohei Imai, Atsushi Ono, and Sumio Ishihara, "Energy-band echoes: Time-reversed light emission from optically driven quasiparticle wave packets", Physical Review Research 4 4, 043155 (2022).

[1212] András Gilyén, Zhao Song, and Ewin Tang, "An improved quantum-inspired algorithm for linear regression", Quantum 6, 754 (2022).

[1213] Fan-Xu Meng, Ze-Tong Li, Yu Xu-Tao, and Zai-Chen Zhang, "Quantum algorithm for MUSIC-based DOA estimation in hybrid MIMO systems", Quantum Science and Technology 7 2, 025002 (2022).

[1214] Masahito Hayashi, Zi-Wen Liu, and Haidong Yuan, "Global Heisenberg scaling in noisy and practical phase estimation", Quantum Science and Technology 7 2, 025030 (2022).

[1215] Yuki Takeuchi, Yasuhiro Takahashi, Tomoyuki Morimae, and Seiichiro Tani, "Divide-and-conquer verification method for noisy intermediate-scale quantum computation", Quantum 6, 758 (2022).

[1216] Wonho Jang, Koji Terashi, Masahiko Saito, Christian W. Bauer, Benjamin Nachman, Yutaro Iiyama, Ryunosuke Okubo, and Ryu Sawada, "Initial-State Dependent Optimization of Controlled Gate Operations with Quantum Computer", Quantum 6, 798 (2022).

[1217] David Subires, Fernando J. Gómez-Ruiz, Antonia Ruiz-García, Daniel Alonso, and Adolfo del Campo, "Benchmarking quantum annealing dynamics: The spin-vector Langevin model", Physical Review Research 4 2, 023104 (2022).

[1218] Andrew Y. Guo, Abhinav Deshpande, Su-Kuan Chu, Zachary Eldredge, Przemyslaw Bienias, Dhruv Devulapalli, Yuan Su, Andrew M. Childs, and Alexey V. Gorshkov, "Implementing a fast unbounded quantum fanout gate using power-law interactions", Physical Review Research 4 4, L042016 (2022).

[1219] D. V. Babukhin and W. V. Pogosov, "The effect of quantum noise on algorithmic perfect quantum state transfer on NISQ processors", Quantum Information Processing 21 1, 7 (2022).

[1220] Hiroshi Ohno, "Boosting for quantum weak learners", Quantum Information Processing 21 6, 199 (2022).

[1221] Yi Hu, Fanxu Meng, Xiaojun Wang, Tian Luan, Yulong Fu, Zaichen Zhang, Xianchao Zhang, and Xutao Yu, "Greedy algorithm based circuit optimization for near-term quantum simulation", Quantum Science and Technology 7 4, 045001 (2022).

[1222] Raoul Heese, Patricia Bickert, and Astrid Elisa Niederle, "Representation of binary classification trees with binary features by quantum circuits", Quantum 6, 676 (2022).

[1223] Ángel Gutiérrez-Rubio, Juan S. Rojas-Arias, Jun Yoneda, Seigo Tarucha, Daniel Loss, and Peter Stano, "Bayesian estimation of correlation functions", Physical Review Research 4 4, 043166 (2022).

[1224] Hasan Yetiş and Mehmet Karaköse, "An improved and cost reduced quantum circuit generator approach for image encoding applications", Quantum Information Processing 21 6, 203 (2022).

[1225] Kim Pöyhönen, Ali G. Moghaddam, and Teemu Ojanen, "Many-body entanglement and topology from uncertainties and measurement-induced modes", Physical Review Research 4 2, 023200 (2022).

[1226] Matthew Girling, Cristina Cîrstoiu, and David Jennings, "Estimation of correlations and nonseparability in quantum channels via unitarity benchmarking", Physical Review Research 4 2, 023041 (2022).

[1227] Anton Potočnik, Steven Brebels, Jeroen Verjauw, Rohith Acharya, Alexander Grill, Danny Wan, Massimo Mongillo, Ruoyu Li, Tsvetan Ivanov, Steven Van Winckel, Fahd A. Mohiyaddin, Bogdan Govoreanu, Jan Craninckx, and Iuliana P. Radu, "Millikelvin temperature cryo-CMOS multiplexer for scalable quantum device characterisation", Quantum Science and Technology 7 1, 015004 (2022).

[1228] Austin K. Daniel, Yingyue Zhu, C. Huerta Alderete, Vikas Buchemmavari, Alaina M. Green, Nhung H. Nguyen, Tyler G. Thurtell, Andrew Zhao, Norbert M. Linke, and Akimasa Miyake, "Quantum computational advantage attested by nonlocal games with the cyclic cluster state", Physical Review Research 4 3, 033068 (2022).

[1229] Pengcheng Zhu, Shenggen Zheng, Lihua Wei, Xueyun Cheng, Zhijin Guan, and Shiguang Feng, "The complexity of quantum circuit mapping with fixed parameters", Quantum Information Processing 21 10, 361 (2022).

[1230] Akshaya Jayashankar, My Duy Hoang Long, Hui Khoon Ng, and Prabha Mandayam, "Achieving fault tolerance against amplitude-damping noise", Physical Review Research 4 2, 023034 (2022).

[1231] Bingzhi Zhang and Quntao Zhuang, "Fast decay of classification error in variational quantum circuits", Quantum Science and Technology 7 3, 035017 (2022).

[1232] Maiyuren Srikumar, Charles D. Hill, and Lloyd C. L. Hollenberg, "Clustering and enhanced classification using a hybrid quantum autoencoder", Quantum Science and Technology 7 1, 015020 (2022).

[1233] Akash Kundu and Jarosław Adam Miszczak, "Variational certification of quantum devices", Quantum Science and Technology 7 4, 045017 (2022).

[1234] Guijiao Du, Chengcheng Zhou, and Leong-Chuan Kwek, "Compression and reduction of N ∗1 states by unitary matrices", Quantum Information Processing 21 2, 80 (2022).

[1235] Carlile Lavor, Franklin Marquezino, Andrês Oliveira, and Renato Portugal, "A quantum approach to the discretizable molecular distance geometry problem", Quantum Information Processing 21 7, 239 (2022).

[1236] Simon Martiel and Timothée Goubault de Brugière, "Architecture aware compilation of quantum circuits via lazy synthesis", Quantum 6, 729 (2022).

[1237] Ratul Banerjee, Amit Kumar Pal, and Aditi SenDe, "Hierarchies of localizable entanglement due to spatial distribution of local noise", Physical Review Research 4 2, 023035 (2022).

[1238] Roeland Wiersema, Leonardo Guerini, Juan Felipe Carrasquilla, and Leandro Aolita, "Circuit connectivity boosts by quantum-classical-quantum interfaces", Physical Review Research 4 4, 043221 (2022).

[1239] Amit Kumar Pal, Philipp Schindler, Alexander Erhard, Ángel Rivas, Miguel-Angel Martin-Delgado, Rainer Blatt, Thomas Monz, and Markus Müller, "Relaxation times do not capture logical qubit dynamics", Quantum 6, 632 (2022).

[1240] Bernhard Irsigler and Tobias Grass, "The quantum annealing gap and quench dynamics in the exact cover problem", Quantum 6, 624 (2022).

[1241] Noa Feldman and Moshe Goldstein, "Noisy quantum computation modeled by quantum walk: universality without ancillas", Quantum Science and Technology 7 4, 045032 (2022).

[1242] Fang Gao, Guojian Wu, Mingyu Yang, Wei Cui, and Feng Shuang, "A hybrid algorithm to solve linear systems of equations with limited qubit resources", Quantum Information Processing 21 3, 111 (2022).

[1243] Maurice Weber, Abhinav Anand, Alba Cervera-Lierta, Jakob S. Kottmann, Thi Ha Kyaw, Bo Li, Alán Aspuru-Guzik, Ce Zhang, and Zhikuan Zhao, "Toward reliability in the NISQ era: Robust interval guarantee for quantum measurements on approximate states", Physical Review Research 4 3, 033217 (2022).

[1244] Jino Heo and Seong-Gon Choi, "Photonic scheme of quantum phase estimation for quantum algorithms via quantum dots", Quantum Information Processing 21 1, 6 (2022).

[1245] Anbang Wang, Jingning Zhang, and Ying Li, "Error-mitigated deep-circuit quantum simulation of open systems: Steady state and relaxation rate problems", Physical Review Research 4 4, 043140 (2022).

[1246] Xiao-Qi Liu, Jing Wang, Ming Li, Shu-Qian Shen, Weiguo Li, and Shao-Ming Fei, "Quantum relaxed row and column iteration methods based on block-encoding", Quantum Information Processing 21 6, 230 (2022).

[1247] David A. Herrera-Martí, "Policy Gradient Approach to Compilation of Variational Quantum Circuits", Quantum 6, 797 (2022).

[1248] Hsin-Yuan Huang, Michael Broughton, Jordan Cotler, Sitan Chen, Jerry Li, Masoud Mohseni, Hartmut Neven, Ryan Babbush, Richard Kueng, John Preskill, and Jarrod R. McClean, "Quantum advantage in learning from experiments", Science 376 6598, 1182 (2022).

[1249] Anna Dawid, Julian Arnold, Borja Requena, Alexander Gresch, Marcin Płodzień, Kaelan Donatella, Kim A. Nicoli, Paolo Stornati, Rouven Koch, Miriam Büttner, Robert Okuła, Gorka Muñoz-Gil, Rodrigo A. Vargas-Hernández, Alba Cervera-Lierta, Juan Carrasquilla, Vedran Dunjko, Marylou Gabrié, Patrick Huembeli, Evert van Nieuwenburg, Filippo Vicentini, Lei Wang, Sebastian J. Wetzel, Giuseppe Carleo, Eliška Greplová, Roman Krems, Florian Marquardt, Michał Tomza, Maciej Lewenstein, and Alexandre Dauphin, "Modern applications of machine learning in quantum sciences", arXiv:2204.04198, (2022).

[1250] Alexey Melnikov, Mohammad Kordzanganeh, Alexander Alodjants, and Ray-Kuang Lee, "Quantum machine learning: from physics to software engineering", Advances in Physics X 8 1, 2165452 (2023).

[1251] Ryuji Takagi, Suguru Endo, Shintaro Minagawa, and Mile Gu, "Fundamental limits of quantum error mitigation", npj Quantum Information 8, 114 (2022).

[1252] Martin Larocca, Piotr Czarnik, Kunal Sharma, Gopikrishnan Muraleedharan, Patrick J. Coles, and M. Cerezo, "Diagnosing Barren Plateaus with Tools from Quantum Optimal Control", Quantum 6, 824 (2022).

[1253] Weikang Li and Dong-Ling Deng, "Recent advances for quantum classifiers", Science China Physics, Mechanics, and Astronomy 65 2, 220301 (2022).

[1254] Yuxuan Du, Tao Huang, Shan You, Min-Hsiu Hsieh, and Dacheng Tao, "Quantum circuit architecture search for variational quantum algorithms", npj Quantum Information 8, 62 (2022).

[1255] Yu Zhang, Lukasz Cincio, Christian F. A. Negre, Piotr Czarnik, Patrick J. Coles, Petr M. Anisimov, Susan M. Mniszewski, Sergei Tretiak, and Pavel A. Dub, "Variational quantum eigensolver with reduced circuit complexity", npj Quantum Information 8, 96 (2022).

[1256] Shiro Tamiya and Hayata Yamasaki, "Stochastic gradient line Bayesian optimization for efficient noise-robust optimization of parameterized quantum circuits", npj Quantum Information 8, 90 (2022).

[1257] M. Cerezo, Kunal Sharma, Andrew Arrasmith, and Patrick J. Coles, "Variational quantum state eigensolver", npj Quantum Information 8, 113 (2022).

[1258] R. Mondaini, S. Tarat, and R. T. Scalettar, "Quantum critical points and the sign problem", Science 375 6579, 418 (2022).

[1259] Matthias M. Müller, Ressa S. Said, Fedor Jelezko, Tommaso Calarco, and Simone Montangero, "One decade of quantum optimal control in the chopped random basis", Reports on Progress in Physics 85 7, 076001 (2022).

[1260] Bin Cheng, Xiu-Hao Deng, Xiu Gu, Yu He, Guangchong Hu, Peihao Huang, Jun Li, Ben-Chuan Lin, Dawei Lu, Yao Lu, Chudan Qiu, Hui Wang, Tao Xin, Shi Yu, Man-Hong Yung, Junkai Zeng, Song Zhang, Youpeng Zhong, Xinhua Peng, Franco Nori, and Dapeng Yu, "Noisy intermediate-scale quantum computers", Frontiers of Physics 18 2, 21308 (2023).

[1261] Salvatore F. E. Oliviero, Lorenzo Leone, Alioscia Hamma, and Seth Lloyd, "Measuring magic on a quantum processor", npj Quantum Information 8, 148 (2022).

[1262] Steven Herbert, "Quantum Monte Carlo Integration: The Full Advantage in Minimal Circuit Depth", Quantum 6, 823 (2022).

[1263] Thomas Ayral, Pauline Besserve, Denis Lacroix, and Edgar Andres Ruiz Guzman, "Quantum computing with and for many-body physics", European Physical Journal A 59 10, 227 (2023).

[1264] Daniel Gottesman, "Opportunities and Challenges in Fault-Tolerant Quantum Computation", arXiv:2210.15844, (2022).

[1265] Christophe Piveteau, David Sutter, and Stefan Woerner, "Quasiprobability decompositions with reduced sampling overhead", npj Quantum Information 8, 12 (2022).

[1266] Miguel Caçador Peixoto, Nuno Filipe Castro, Miguel Crispim Romão, Maria Gabriela Jordão Oliveira, and Inês Ochoa, "Fitting a Collider in a Quantum Computer: Tackling the Challenges of Quantum Machine Learning for Big Datasets", arXiv:2211.03233, (2022).

[1267] Jin Ming Koh, Tommy Tai, Yong Han Phee, Wei En Ng, and Ching Hua Lee, "Stabilizing multiple topological fermions on a quantum computer", npj Quantum Information 8, 16 (2022).

[1268] Anirban Mukherjee, Noah F. Berthusen, João C. Getelina, Peter P. Orth, and Yong-Xin Yao, "Comparative study of adaptive variational quantum eigensolvers for multi-orbital impurity models", Communications Physics 6 1, 4 (2023).

[1269] Kun Wang, Zhixin Song, Xuanqiang Zhao, Zihe Wang, and Xin Wang, "Detecting and quantifying entanglement on near-term quantum devices", npj Quantum Information 8, 52 (2022).

[1270] P. Sierant and X. Turkeshi, "Entanglement and Absorbing State Transitions in (d+1)-Dimensional Stabilizer Circuits", Acta Physica Polonica A 144 6, 474 (2023).

[1271] Jonah Kudler-Flam, Ramanjit Sohal, and Laimei Nie, "Information Scrambling with Conservation Laws", SciPost Physics 12 4, 117 (2022).

[1272] E. Vahapoglu, J. P. Slack-Smith, R. C. C. Leon, W. H. Lim, F. E. Hudson, T. Day, J. D. Cifuentes, T. Tanttu, C. H. Yang, A. Saraiva, N. V. Abrosimov, H. -J. Pohl, M. L. W. Thewalt, A. Laucht, A. S. Dzurak, and J. J. Pla, "Coherent control of electron spin qubits in silicon using a global field", npj Quantum Information 8, 126 (2022).

[1273] Hang Jing, Ye Wang, and Yan Li, "Data-driven quantum approximate optimization algorithm for power systems", Communications Engineering 2 1, 12 (2023).

[1274] Troy J. Sewell, Christopher David White, and Brian Swingle, "Thermal Multi-scale Entanglement Renormalization Ansatz for Variational Gibbs State Preparation", arXiv:2210.16419, (2022).

[1275] Tanmay Singal, Filip B. Maciejewski, and Michał Oszmaniec, "Implementation of quantum measurements using classical resources and only a single ancillary qubit", npj Quantum Information 8, 82 (2022).

[1276] Hanqing Liu and Shailesh Chandrasekharan, "Qubit Regularization and Qubit Embedding Algebras", Symmetry 14 2, 305 (2022).

[1277] Xu Zhou, Daowen Qiu, and Le Luo, "Distributed exact Grover's algorithm", Frontiers of Physics 18 5, 51305 (2023).

[1278] Luqman Khan, Anwar Zaman, Rashid Ahmad, and Sajid Khan, "Experimentally implementing the step-dependent discrete-time quantum walk on quantum computers", Canadian Journal of Physics 101 4, 176 (2023).

[1279] Krzysztof Domino, Mátyás Koniorczyk, Krzysztof Krawiec, Konrad Jałowiecki, Sebastian Deffner, and Bartłomiej Gardas, "Quantum Annealing in the NISQ Era: Railway Conflict Management", Entropy 25 2, 191 (2023).

[1280] Wenyang Qian, Robert A. M. Basili, Mary Mehrnoosh Eshaghian-Wilner, Ashfaq Khokhar, Glenn Luecke, and James P. Vary, "Comparative Study of Variations in Quantum Approximate Optimization Algorithms for the Traveling Salesman Problem", Entropy 25 8, 1238 (2023).

[1281] Tobias Schmale, Moritz Reh, and Martin Gärttner, "Efficient quantum state tomography with convolutional neural networks", npj Quantum Information 8, 115 (2022).

[1282] Hao-Kai Zhang, Chengkai Zhu, Geng Liu, and Xin Wang, "Fundamental limitations on optimization in variational quantum algorithms", arXiv:2205.05056, (2022).

[1283] Shuvro Chowdhury, Kerem Y. Camsari, and Supriyo Datta, "Accelerated quantum Monte Carlo with probabilistic computers", Communications Physics 6 1, 85 (2023).

[1284] Grace D. Metcalfe, Boyan Tabakov, Tristan Nguyen, Jiwei Lu, and Ali Sayir, "Basic Research Perspective on Quantum Information Science for the Aerospace Community", AIAA Journal 61 12, 5191 (2023).

[1285] Xinbiao Wang, Junyu Liu, Tongliang Liu, Yong Luo, Yuxuan Du, and Dacheng Tao, "Symmetric Pruning in Quantum Neural Networks", arXiv:2208.14057, (2022).

[1286] Sergio Miguel-Tomé, Ángel L. Sánchez-Lázaro, and Luis Alonso-Romero, "Fundamental Physics and Computation: The Computer-Theoretic Framework", Universe 8 1, 40 (2022).

[1287] Matteo Cherchi, Arijit Bera, Antti Kemppinen, Jaani Nissilä, Kirsi Tappura, Marco Caputo, Lauri Lehtimäki, Janne Lehtinen, Joonas Govenius, Tomi Hassinen, Mika Prunnila, and Timo Aalto, "Supporting quantum technologies with an ultralow-loss silicon photonics platform", Advanced Photonics Nexus 2, 024002 (2023).

[1288] Elijah Pelofske, Andreas Bärtschi, and Stephan Eidenbenz, "Quantum Volume in Practice: What Users Can Expect from NISQ Devices", arXiv:2203.03816, (2022).

[1289] Nishant Jain, Brian Coyle, Elham Kashefi, and Niraj Kumar, "Graph neural network initialisation of quantum approximate optimisation", Quantum 6, 861 (2022).

[1290] Casper Gyurik, Chris Cade, and Vedran Dunjko, "Towards quantum advantage via topological data analysis", Quantum 6, 855 (2022).

[1291] Jin-Min Liang, Shi-Jie Wei, and Shao-Ming Fei, "Quantum gradient descent algorithms for nonequilibrium steady states and linear algebraic systems", Science China Physics, Mechanics, and Astronomy 65 5, 250313 (2022).

[1292] Xinyi Chen, Elad Hazan, Tongyang Li, Zhou Lu, Xinzhao Wang, and Rui Yang, "Adaptive Online Learning of Quantum States", arXiv:2206.00220, (2022).

[1293] Luciano Pereira, Leonardo Zambrano, and Aldo Delgado, "Scalable estimation of pure multi-qubit states", npj Quantum Information 8, 57 (2022).

[1294] Maijie Deng, Zhimin He, Shenggen Zheng, Yan Zhou, Fei Zhang, and Haozhen Situ, "A progressive predictor-based quantum architecture search with active learning", European Physical Journal Plus 138 10, 905 (2023).

[1295] Chen-Yi Huang and Shi-Bin Zhang, "A backdoor attack against quantum neural networks with limited information", Chinese Physics B 32 10, 100306 (2023).

[1296] Seyed Shakib Vedaie, Archismita Dalal, Eduardo J. Páez, and Barry C. Sanders, "Framework for learning and control in the classical and quantum domains", Annals of Physics 458, 169471 (2023).

[1297] Xinglan Zhang and Feng Zhang, "Variational Quantum Computation Integer Factorization Algorithm", International Journal of Theoretical Physics 62 11, 245 (2023).

[1298] Lennart Bittel, Jens Watty, and Martin Kliesch, "Fast gradient estimation for variational quantum algorithms", arXiv:2210.06484, (2022).

[1299] Ying-Yi Hong, Christine Joy E. Arce, and Tsung-Wei Huang, "A Robust Hybrid Classical and Quantum Model for Short-Term Wind Speed Forecasting", IEEE Access 11, 90811 (2023).

[1300] Kok Chuan Tan, Dhiman Bhowmick, and Pinaki Sengupta, "Sign-problem free quantum stochastic series expansion algorithm on a quantum computer", npj Quantum Information 8, 44 (2022).

[1301] Bingzhi Zhang, Akira Sone, and Quntao Zhuang, "Quantum computational phase transition in combinatorial problems", npj Quantum Information 8, 87 (2022).

[1302] Ramin Ayanzadeh, Narges Alavisamani, Poulami Das, and Moinuddin Qureshi, "FrozenQubits: Boosting Fidelity of QAOA by Skipping Hotspot Nodes", arXiv:2210.17037, (2022).

[1303] Zixuan Hu and Sabre Kais, "The unitary dependence theory for characterizing quantum circuits and states", Communications Physics 6 1, 68 (2023).

[1304] Minzhao Liu, Junyu Liu, Yuri Alexeev, and Liang Jiang, "Estimating the randomness of quantum circuit ensembles up to 50 qubits", npj Quantum Information 8, 137 (2022).

[1305] Li Ding and Lee Spector, "Multi-Objective Evolutionary Architecture Search for Parameterized Quantum Circuits", Entropy 25 1, 93 (2023).

[1306] Daniel Huerga, "Variational Quantum Simulation of Valence-Bond Solids", Quantum 6, 874 (2022).

[1307] Halima Giovanna Ahmad, Caleb Jordan, Roald van den Boogaart, Daan Waardenburg, Christos Zachariadis, Pasquale Mastrovito, Asen Lyubenov Georgiev, Domenico Montemurro, Giovanni Piero Pepe, Marten Arthers, Alessandro Bruno, Francesco Tafuri, Oleg Mukhanov, Marco Arzeo, and Davide Massarotti, "Investigating the Individual Performances of Coupled Superconducting Transmon Qubits", Condensed Matter 8 1, 29 (2023).

[1308] Jannes Nys and Giuseppe Carleo, "Variational solutions to fermion-to-qubit mappings in two spatial dimensions", Quantum 6, 833 (2022).

[1309] Soronzonbold Otgonbaatar, Gottfried Schwarz, Mihai Datcu, and Dieter Kranzlmüller, "Quantum Transfer Learning for Real-World, Small, and High-Dimensional Remotely Sensed Datasets", IEEE Journal of Selected Topics in Applied Earth Observations and Remote Sensing 16, 9223 (2023).

[1310] Marcin Dukalski, Diego Rovetta, Stan van der Linde, Matthias Möller, Niels Neumann, and Frank Phillipson, "Quantum computer-assisted global optimization in geophysics illustrated with stack-power maximization for refraction residual statics estimation", Geophysics 88 2, V75 (2023).

[1311] Weiyuan Gong, Chenyi Zhang, and Tongyang Li, "Robustness of Quantum Algorithms for Nonconvex Optimization", arXiv:2212.02548, (2022).

[1312] Karen Wintersperger, Hila Safi, and Wolfgang Mauerer, "QPU-System Co-Design for Quantum HPC Accelerators", arXiv:2208.11449, (2022).

[1313] Jia-Wei Ying, Jun-Chen Shen, Lan Zhou, Wei Zhong, Ming-Ming Du, and Yu-Bo Sheng, "Preparing a Fast Pauli Decomposition for Variational Quantum Solving Linear Equations", Annalen der Physik 535 11, 2300212 (2023).

[1314] Gabriele Cenedese, Maria Bondani, Dario Rosa, and Giuliano Benenti, "Generation of Pseudo-Random Quantum States on Actual Quantum Processors", Entropy 25 4, 607 (2023).

[1315] Emmanuel Jeandel, Simon Perdrix, and Margarita Veshchezerova, "Addition and Differentiation of ZX-diagrams", arXiv:2202.11386, (2022).

[1316] You Zhou, Bo Xiao, Meng-Da Li, Qi Zhao, Zhen-Sheng Yuan, Xiongfeng Ma, and Jian-Wei Pan, "A scheme to create and verify scalable entanglement in optical lattice", npj Quantum Information 8, 99 (2022).

[1317] Alonso Viladomat Jasso, Ark Modi, Roberto Ferrara, Christian Deppe, Janis Nötzel, Fred Fung, and Maximilian Schädler, "Quantum and Quantum-Inspired Stereographic K Nearest-Neighbour Clustering", Entropy 25 9, 1361 (2023).

[1318] Lea Kopf and Markus Hiekkamäki, "Endless fun in high dimensions-A quantum card game", American Journal of Physics 91 6, 458 (2023).

[1319] S. Hasibul Hassan Chowdhury, Talal Ahmed Chowdhury, Salah Nasri, Omar Ibna Nazim, and Shaikh Saad, "Quantum simulation of quantum mechanical system with spatial noncommutativity", International Journal of Quantum Information 21 6, 2350028-5384 (2023).

[1320] Andrea Matic, Maureen Monnet, Jeanette Miriam Lorenz, Balthasar Schachtner, and Thomas Messerer, "Quantum-classical convolutional neural networks in radiological image classification", arXiv:2204.12390, (2022).

[1321] Tailong Xiao, Jingzheng Huang, Hongjing Li, Jianping Fan, and Guihua Zeng, "Intelligent certification for quantum simulators via machine learning", npj Quantum Information 8, 138 (2022).

[1322] Marco Simonetti, Damiano Perri, and Osvaldo Gervasi, "Variational Methods in Optical Quantum Machine Learning", IEEE Access 11, 131394 (2023).

[1323] Raja Selvarajan, Manas Sajjan, and Sabre Kais, "Variational Quantum Circuits to Prepare Low Energy Symmetry States", Symmetry 14 3, 457 (2022).

[1324] Jehn-Ruey Jiang and Chun-Wei Chu, "Classifying and Benchmarking Quantum Annealing Algorithms Based on Quadratic Unconstrained Binary Optimization for Solving NP-Hard Problems", IEEE Access 11, 104165 (2023).

[1325] D. Messias, C. V. C. Mendes, R. F. Dutra, G. M. A. Almeida, M. L. Lyra, and F. A. B. F. de Moura, "Quantum-State Transfer Through Disordered Hexagonal Lattices", Brazilian Journal of Physics 53 4, 83 (2023).

[1326] Korbinian Kottmann, "Investigating Quantum Many-Body Systems with Tensor Networks, Machine Learning and Quantum Computers", arXiv:2210.11130, (2022).

[1327] Shinichi Saito, "SU(2) symmetry of coherent photons and application to Poincaré rotator", Frontiers in Physics 11, 1225419 (2023).

[1328] Bin-Lin Chen and Dan-Bo Zhang, "Variational Quantum Eigensolver with Mutual Variance-Hamiltonian Optimization", Chinese Physics Letters 40 1, 010303 (2023).

[1329] Gabriele Cenedese, Giuliano Benenti, and Maria Bondani, "Correcting Coherent Errors by Random Operation on Actual Quantum Hardware", Entropy 25 2, 324 (2023).

[1330] Finn Voichick, Liyi Li, Robert Rand, and Michael Hicks, "Qunity: A Unified Language for Quantum and Classical Computing (Extended Version)", arXiv:2204.12384, (2022).

[1331] Nico Meyer, Daniel D. Scherer, Axel Plinge, Christopher Mutschler, and Michael J. Hartmann, "Quantum Policy Gradient Algorithm with Optimized Action Decoding", arXiv:2212.06663, (2022).

[1332] Pulak Ranjan Giri, "Quantum Walk Search on a Two-dimensional Grid with Extra Edges", International Journal of Theoretical Physics 62 6, 121 (2023).

[1333] Yuta Hirasaki, Shunsuke Daimon, Toshinari Itoko, Naoki Kanazawa, and Eiji Saitoh, "Detection of temporal fluctuation in superconducting qubits for quantum error mitigation", Applied Physics Letters 123 18, 184002 (2023).

[1334] Nikolaos Koukoulekidis, Hyukjoon Kwon, Hyejung H. Jee, David Jennings, and M. S. Kim, "Faster Born probability estimation via gate merging and frame optimisation", Quantum 6, 838 (2022).

[1335] G. D. Varsamis, I. G. Karafyllidis, K. M. Gilkes, U. Arranz, R. Martin-Cuevas, G. Calleja, J. Wong, H. C. Jessen, P. Dimitrakis, P. Kolovos, and R. Sandaltzopoulos, "Quantum algorithm for de novo DNA sequence assembly based on quantum walks on graphs", BioSystems 233, 105037 (2023).

[1336] Leonardo Ratini, Chiara Capecci, and Leonardo Guidoni, "Optimization strategies in WAHTOR algorithm for quantum computing empirical ansatz: a comparative study", Electronic Structure 5 4, 045006 (2023).

[1337] Richard H. J. Kim, Joong M. Park, Samuel Haeuser, Chuankun Huang, Di Cheng, Thomas Koschny, Jinsu Oh, Cameron Kopas, Hilal Cansizoglu, Kameshwar Yadavalli, Josh Mutus, Lin Zhou, Liang Luo, Matthew J. Kramer, and Jigang Wang, "Visualizing heterogeneous dipole fields by terahertz light coupling in individual nano-junctions", Communications Physics 6 1, 147 (2023).

[1338] Poulami Das, Suhas K. Vittal, and Moinuddin Qureshi, "ForeSight: Reducing SWAPs in NISQ Programs via Adaptive Multi-Candidate Evaluations", arXiv:2204.13142, (2022).

[1339] Stefano Markidis, "Programming Quantum Neural Networks on NISQ Systems: An Overview of Technologies and Methodologies", Entropy 25 4, 694 (2023).

[1340] Mårten Skogh, Oskar Leinonen, Phalgun Lolur, and Martin Rahm, "Accelerating variational quantum eigensolver convergence using parameter transfer", Electronic Structure 5 3, 035002 (2023).

[1341] Rubén Peña, Thi Ha Kyaw, and Guillermo Romero, "Stable Many-Body Resonances in Open Quantum Systems", Symmetry 14 12, 2562 (2022).

[1342] Shihao Zhang, Jiacheng Bao, Yifan Sun, Lvzhou Li, Houjun Sun, and Xiangdong Zhang, "An Exact and Practical Classical Strategy for 2D Graph State Sampling", Annalen der Physik 535 2, 2200531 (2023).

[1343] Fariska Zakhralativa Ruskanda, Muhammad Rifat Abiwardani, Infall Syafalni, Harashta Tatimma Larasati, and Rahmat Mulyawan, "Simple Sentiment Analysis Ansatz for Sentiment Classification in Quantum Natural Language Processing", IEEE Access 11, 120612 (2023).

[1344] Tilahun M. Getu, Georges Kaddoum, and Mehdi Bennis, "Making Sense of Meaning: A Survey on Metrics for Semantic and Goal-Oriented Communication", IEEE Access 11, 45456 (2023).

[1345] Armin Ahmadkhaniha, Yousef Mafi, Payman Kazemikhah, Hossein Aghababa, Masoud Barati, and Mohammadreza Kolahdouz, "Performance Analysis of the Hardware-Efficient Quantum Search Algorithm", International Journal of Theoretical Physics 62 8, 168 (2023).

[1346] Ritajit Majumdar, Amit Saha, Amlan Chakrabarti, and Susmita Sur-Kolay, "On Fault Tolerance of Circuits with Intermediate Qutrit-assisted Gate Decomposition", arXiv:2212.07866, (2022).

[1347] Robert Klassert, Andreas Baumbach, Mihai A. Petrovici, and Martin Gärttner, "Variational learning of quantum ground states on spiking neuromorphic hardware", iScience 25 8, 104707 (2022).

[1348] Youyi Huang and Lu Wei, "Entropy Fluctuation Formulas of Fermionic Gaussian States", Annales Henri Poincaré 24 12, 4283 (2023).

[1349] Bao Gia Bach, Akash Kundu, Tamal Acharya, and Aritra Sarkar, "Visualizing Quantum Circuit Probability: Estimating Quantum State Complexity for Quantum Program Synthesis", Entropy 25 5, 763 (2023).

[1350] Zhi-Quan Shi, Xu-Dan Xie, and Dan-Bo Zhang, "Variational quantum simulation of the quantum critical regime", Chinese Physics B 32 8, 080305 (2023).

[1351] Gelo Noel M. Tabia, Kai-Siang Chen, Chung-Yun Hsieh, Yu-Chun Yin, and Yeong-Cherng Liang, "Entanglement transitivity problems", npj Quantum Information 8, 98 (2022).

[1352] Amit Saha, Anupam Chattopadhyay, and Amlan Chakrabarti, "Robust Quantum Arithmetic Operations with Intermediate Qutrits in the NISQ-era", International Journal of Theoretical Physics 62 4, 92 (2023).

[1353] Maida Wang, Anqi Huang, Yong Liu, Xuming Yi, Junjie Wu, and Siqi Wang, "A Quantum-Classical Hybrid Solution for Deep Anomaly Detection", Entropy 25 3, 427 (2023).

[1354] Young-Min Jun and In-Chan Choi, "Optimal Multi-Bit Toffoli Gate Synthesis", IEEE Access 11, 27342 (2023).

[1355] Mushrafi Munim Sushmit and Islam Mohammed Mahbubul, "Forecasting solar irradiance with hybrid classical-quantum models: A comprehensive evaluation of deep learning and quantum-enhanced techniques", Energy Conversion and Management 294, 117555 (2023).

[1356] Sharanya Prabhu, Shourya Gupta, Gautham Manuru Prabhu, Aarushi Vishal Dhanuka, and K. Vivekananda Bhat, "QuCardio: Application of Quantum Machine Learning for Detection of Cardiovascular Diseases", IEEE Access 11, 136122 (2023).

[1357] Xingrui Song and Kater Murch, "Parity-Time Symmetric Holographic Principle", Entropy 25 11, 1523 (2023).

[1358] Le Bin Ho, "Stochastic approach for quantum metrology with generic Hamiltonians", arXiv:2204.01055, (2022).

[1359] Yuri Yoneda, Moe Shimada, Asaki Yoshida, and Jun-ichi Shirakashi, "Searching for optimal experimental parameters with D-Wave quantum annealer for fabrication of Au atomic junctions", Applied Physics Express 16 5, 057001 (2023).

[1360] Yang Qian, Zhijin Guan, Shenggen Zheng, and Shiguang Feng, "A Method Based on Timing Weight Priority and Distance Optimization for Quantum Circuit Transformation", Entropy 25 3, 465 (2023).

[1361] Stefanie Castillo, "The Electronic Control System of a Trapped-Ion Quantum Processor: A Systematic Literature Review", IEEE Access 11, 65775 (2023).

[1362] Xiaozhou Pan, Pengtao Song, and Yvonne Y. Gao, "Continuous-Variable Quantum Computation in Circuit QED", Chinese Physics Letters 40 11, 110303 (2023).

[1363] Greg Bowen and Simon Devitt, "Q2Graph: a modelling tool for measurement-based quantum computing", arXiv:2210.00657, (2022).

[1364] Swamit Tannu, Poulami Das, Ramin Ayanzadeh, and Moinuddin Qureshi, "HAMMER: boosting fidelity of noisy Quantum circuits by exploiting Hamming behavior of erroneous outcomes", arXiv:2208.09371, (2022).

[1365] Deborah Volpe, Giovanni Amedeo Cirillo, Maurizio Zamboni, and Giovanna Turvani, "Integration of Simulated Quantum Annealing in Parallel Tempering and Population Annealing for Heterogeneous-Profile QUBO Exploration", IEEE Access 11, 30390 (2023).

[1366] Xiao-Qi Liu, Yue-Di Qu, Jing Wang, Ming Li, and Shu-Qian Shen, "Solving the Fully Entangled Fraction on Near-Term Quantum Devices", International Journal of Theoretical Physics 62 3, 69 (2023).

[1367] Patrick Selig, Niall Murphy, David Redmond, and Simon Caton, "DeepQPrep: Neural Network Augmented Search for Quantum State Preparation", IEEE Access 11, 76388 (2023).

[1368] Alexander Engelsberger and Thomas Villmann, "Quantum Computing Approaches for Vector Quantization—Current Perspectives and Developments", Entropy 25 3, 540 (2023).

[1369] Davide Costa, Mario Simoni, Gianluca Piccinini, and Mariagrazia Graziano, "Advances in Modeling of Noisy Quantum Computers: Spin Qubits in Semiconductor Quantum Dots", IEEE Access 11, 98875 (2023).

[1370] Chenxiao Dong, Zhesen Yang, Jinfeng Zeng, and Jiangping Hu, "Anomalous non-Hermitian dynamical phenomenon on the quantum circuit", Chinese Physics B 32 7, 070305 (2023).

[1371] Maida Shahid and Muhammad Awais Hassan, "Introducing Quantum Variational Circuit for Efficient Management of Common Pool Resources", IEEE Access 11, 110862 (2023).

[1372] Agustin Silva, Omar Gustavo Zabaleta, and Constancio Miguel Arizmendi, "Maximizing Local Rewards on Multi-Agent Quantum Games through Gradient-Based Learning Strategies", Entropy 25 11, 1484 (2023).

[1373] Simon J. Evered, Dolev Bluvstein, Marcin Kalinowski, Sepehr Ebadi, Tom Manovitz, Hengyun Zhou, Sophie H. Li, Alexandra A. Geim, Tout T. Wang, Nishad Maskara, Harry Levine, Giulia Semeghini, Markus Greiner, Vladan Vuletić, and Mikhail D. Lukin, "High-fidelity parallel entangling gates on a neutral-atom quantum computer", Nature 622 7982, 268 (2023).

[1374] Christian W. Bauer, Zohreh Davoudi, A. Baha Balantekin, Tanmoy Bhattacharya, Marcela Carena, Wibe A. de Jong, Patrick Draper, Aida El-Khadra, Nate Gemelke, Masanori Hanada, Dmitri Kharzeev, Henry Lamm, Ying-Ying Li, Junyu Liu, Mikhail Lukin, Yannick Meurice, Christopher Monroe, Benjamin Nachman, Guido Pagano, John Preskill, Enrico Rinaldi, Alessandro Roggero, David I. Santiago, Martin J. Savage, Irfan Siddiqi, George Siopsis, David Van Zanten, Nathan Wiebe, Yukari Yamauchi, Kübra Yeter-Aydeniz, and Silvia Zorzetti, "Quantum Simulation for High-Energy Physics", PRX Quantum 4 2, 027001 (2023).

[1375] Youngseok Kim, Andrew Eddins, Sajant Anand, Ken Xuan Wei, Ewout van den Berg, Sami Rosenblatt, Hasan Nayfeh, Yantao Wu, Michael Zaletel, Kristan Temme, and Abhinav Kandala, "Evidence for the utility of quantum computing before fault tolerance", Nature 618 7965, 500 (2023).

[1376] Xiao-Min Hu, Yu Guo, Bi-Heng Liu, Chuan-Feng Li, and Guang-Can Guo, "Progress in quantum teleportation", Nature Reviews Physics 5 6, 339 (2023).

[1377] Andreas Elben, Steven T. Flammia, Hsin-Yuan Huang, Richard Kueng, John Preskill, Benoît Vermersch, and Peter Zoller, "The randomized measurement toolbox", Nature Reviews Physics 5 1, 9 (2023).

[1378] Tobias Haug, Chris N. Self, and M. S. Kim, "Quantum machine learning of large datasets using randomized measurements", Machine Learning: Science and Technology 4 1, 015005 (2023).

[1379] Google Quantum AI, Hoke Collaborators, M. Ippoliti, E. Rosenberg, D. Abanin, R. Acharya, T. I. Andersen, M. Ansmann, F. Arute, K. Arya, A. Asfaw, J. Atalaya, J. C. Bardin, A. Bengtsson, G. Bortoli, A. Bourassa, J. Bovaird, L. Brill, M. Broughton, B. B. Buckley, D. A. Buell, T. Burger, B. Burkett, N. Bushnell, Z. Chen, B. Chiaro, D. Chik, J. Cogan, R. Collins, P. Conner, W. Courtney, A. L. Crook, B. Curtin, A. G. Dau, D. M. Debroy, A. Del Toro Barba, S. Demura, A. Di Paolo, I. K. Drozdov, A. Dunsworth, D. Eppens, C. Erickson, E. Farhi, R. Fatemi, V. S. Ferreira, L. F. Burgos, E. Forati, A. G. Fowler, B. Foxen, W. Giang, C. Gidney, D. Gilboa, M. Giustina, R. Gosula, J. A. Gross, S. Habegger, M. C. Hamilton, M. Hansen, M. P. Harrigan, S. D. Harrington, P. Heu, M. R. Hoffmann, S. Hong, T. Huang, A. Huff, W. J. Huggins, S. V. Isakov, J. Iveland, E. Jeffrey, Z. Jiang, C. Jones, P. Juhas, D. Kafri, K. Kechedzhi, T. Khattar, M. Khezri, M. Kieferová, S. Kim, A. Kitaev, P. V. Klimov, A. R. Klots, A. N. Korotkov, F. Kostritsa, J. M. Kreikebaum, D. Landhuis, P. Laptev, K. -M. Lau, L. Laws, J. Lee, K. W. Lee, Y. D. Lensky, B. J. Lester, A. T. Lill, W. Liu, A. Locharla, O. Martin, J. R. McClean, M. McEwen, K. C. Miao, A. Mieszala, S. Montazeri, A. Morvan, R. Movassagh, W. Mruczkiewicz, M. Neeley, C. Neill, A. Nersisyan, M. Newman, J. H. Ng, A. Nguyen, M. Nguyen, M. Y. Niu, T. E. O'Brien, S. Omonije, A. Opremcak, A. Petukhov, R. Potter, L. P. Pryadko, C. Quintana, C. Rocque, N. C. Rubin, N. Saei, D. Sank, K. Sankaragomathi, K. J. Satzinger, H. F. Schurkus, C. Schuster, M. J. Shearn, A. Shorter, N. Shutty, V. Shvarts, J. Skruzny, W. C. Smith, R. Somma, G. Sterling, D. Strain, M. Szalay, A. Torres, G. Vidal, B. Villalonga, C. V. Heidweiller, T. White, B. W. K. Woo, C. Xing, Z. J. Yao, P. Yeh, J. Yoo, G. Young, A. Zalcman, Y. Zhang, N. Zhu, N. Zobrist, H. Neven, R. Babbush, D. Bacon, S. Boixo, J. Hilton, E. Lucero, A. Megrant, J. Kelly, Y. Chen, V. Smelyanskiy, X. Mi, V. Khemani, and P. Roushan, "Measurement-induced entanglement and teleportation on a noisy quantum processor", Nature 622 7983, 481 (2023).

[1380] Nathanan Tantivasadakarn, Ashvin Vishwanath, and Ruben Verresen, "Hierarchy of Topological Order From Finite-Depth Unitaries, Measurement, and Feedforward", PRX Quantum 4 2, 020339 (2023).

[1381] Fabio Caceffo and Vincenzo Alba, "Entanglement negativity in a fermionic chain with dissipative defects: exact results", Journal of Statistical Mechanics: Theory and Experiment 2023 2, 023102 (2023).

[1382] Matthias C. Caro, Hsin-Yuan Huang, Nicholas Ezzell, Joe Gibbs, Andrew T. Sornborger, Lukasz Cincio, Patrick J. Coles, and Zoë Holmes, "Out-of-distribution generalization for learning quantum dynamics", Nature Communications 14, 3751 (2023).

[1383] Valentin Gebhart, Raffaele Santagati, Antonio Andrea Gentile, Erik M. Gauger, David Craig, Natalia Ares, Leonardo Banchi, Florian Marquardt, Luca Pezzè, and Cristian Bonato, "Learning quantum systems", Nature Reviews Physics 5 3, 141 (2023).

[1384] Johannes Jakob Meyer, Marian Mularski, Elies Gil-Fuster, Antonio Anna Mele, Francesco Arzani, Alissa Wilms, and Jens Eisert, "Exploiting Symmetry in Variational Quantum Machine Learning", PRX Quantum 4 1, 010328 (2023).

[1385] Seyed Ehsan Ghasempouri, Gerhard W. Dueck, and Stijn De Baerdemacker, "Modular Cluster Circuits for the Variational Quantum Eigensolver", Journal of Physical Chemistry A 127 39, 8168 (2023).

[1386] Yanwu Gu, Wei-Feng Zhuang, Xudan Chai, and Dong E. Liu, "Benchmarking universal quantum gates via channel spectrum", Nature Communications 14, 5880 (2023).

[1387] Pascal Scholl, Adam L. Shaw, Richard Bing-Shiun Tsai, Ran Finkelstein, Joonhee Choi, and Manuel Endres, "Erasure conversion in a high-fidelity Rydberg quantum simulator", Nature 622 7982, 273 (2023).

[1388] Alireza Seif, Ze-Pei Cian, Sisi Zhou, Senrui Chen, and Liang Jiang, "Shadow Distillation: Quantum Error Mitigation with Classical Shadows for Near-Term Quantum Processors", PRX Quantum 4 1, 010303 (2023).

[1389] Veit Langrock, Jan A. Krzywda, Niels Focke, Inga Seidler, Lars R. Schreiber, and Łukasz Cywiński, "Blueprint of a Scalable Spin Qubit Shuttle Device for Coherent Mid-Range Qubit Transfer in Disordered Si/SiGe/SiO<SUB>2</SUB>", PRX Quantum 4 2, 020305 (2023).

[1390] Manuel S. Rudolph, Jacob Miller, Danial Motlagh, Jing Chen, Atithi Acharya, and Alejandro Perdomo-Ortiz, "Synergistic pretraining of parametrized quantum circuits via tensor networks", Nature Communications 14, 8367 (2023).

[1391] Duo Song, Nicholas P. Bauman, Guen Prawiroatmodjo, Bo Peng, Cassandra Granade, Kevin M. Rosso, Guang Hao Low, Martin Roetteler, Karol Kowalski, and Eric J. Bylaska, "Periodic plane-wave electronic structure calculations on quantum computers", Materials Theory 7 1, 2 (2023).

[1392] Tobias Haug and M. S. Kim, "Scalable Measures of Magic Resource for Quantum Computers", PRX Quantum 4 1, 010301 (2023).

[1393] Sofiene Jerbi, Lukas J. Fiderer, Hendrik Poulsen Nautrup, Jonas M. Kübler, Hans J. Briegel, and Vedran Dunjko, "Quantum machine learning beyond kernel methods", Nature Communications 14, 517 (2023).

[1394] Giacomo De Palma, Milad Marvian, Cambyse Rouzé, and Daniel Stilck França, "Limitations of Variational Quantum Algorithms: A Quantum Optimal Transport Approach", PRX Quantum 4 1, 010309 (2023).

[1395] Ji Chu, Xiaoyu He, Yuxuan Zhou, Jiahao Yuan, Libo Zhang, Qihao Guo, Yongju Hai, Zhikun Han, Chang-Kang Hu, Wenhui Huang, Hao Jia, Dawei Jiao, Sai Li, Yang Liu, Zhongchu Ni, Lifu Nie, Xianchuang Pan, Jiawei Qiu, Weiwei Wei, Wuerkaixi Nuerbolati, Zusheng Yang, Jiajian Zhang, Zhida Zhang, Wanjing Zou, Yuanzhen Chen, Xiaowei Deng, Xiuhao Deng, Ling Hu, Jian Li, Song Liu, Yao Lu, Jingjing Niu, Dian Tan, Yuan Xu, Tongxing Yan, Youpeng Zhong, Fei Yan, Xiaoming Sun, and Dapeng Yu, "Scalable algorithm simplification using quantum AND logic", Nature Physics 19 1, 126 (2023).

[1396] Han Zheng, Zimu Li, Junyu Liu, Sergii Strelchuk, and Risi Kondor, "Speeding Up Learning Quantum States Through Group Equivariant Convolutional Quantum Ansätze", PRX Quantum 4 2, 020327 (2023).

[1397] Sarah Garcia Jones, Nicholas Materise, Ka Wun Leung, Joel C. Weber, Brian D. Isakov, Xi Chen, Jiangchang Zheng, András Gyenis, Berthold Jaeck, and Corey Rae H. McRae, "Grain size in low loss superconducting Ta thin films on c axis sapphire", Journal of Applied Physics 134 14, 144402 (2023).

[1398] Sitan Chen, Jordan Cotler, Hsin-Yuan Huang, and Jerry Li, "The complexity of NISQ", Nature Communications 14, 6001 (2023).

[1399] Philip Taranto, Faraj Bakhshinezhad, Andreas Bluhm, Ralph Silva, Nicolai Friis, Maximilian P. E. Lock, Giuseppe Vitagliano, Felix C. Binder, Tiago Debarba, Emanuel Schwarzhans, Fabien Clivaz, and Marcus Huber, "Landauer Versus Nernst: What is the True Cost of Cooling a Quantum System?", PRX Quantum 4 1, 010332 (2023).

[1400] Luca Gravina, Fabrizio Minganti, and Vincenzo Savona, "Critical Schrödinger Cat Qubit", PRX Quantum 4 2, 020337 (2023).

[1401] A. Pérez-Obiol, A. M. Romero, J. Menéndez, A. Rios, A. García-Sáez, and B. Juliá-Díaz, "Nuclear shell-model simulation in digital quantum computers", Scientific Reports 13, 12291 (2023).

[1402] Aaron Miller, Zoltán Zimborás, Stefan Knecht, Sabrina Maniscalco, and Guillermo García-Pérez, "Bonsai Algorithm: Grow Your Own Fermion-to-Qubit Mappings", PRX Quantum 4 3, 030314 (2023).

[1403] Dominik Kiesenhofer, Helene Hainzer, Artem Zhdanov, Philip C. Holz, Matthias Bock, Tuomas Ollikainen, and Christian F. Roos, "Controlling Two-Dimensional Coulomb Crystals of More Than 100 Ions in a Monolithic Radio-Frequency Trap", PRX Quantum 4 2, 020317 (2023).

[1404] B. -W. Li, Y. -K. Wu, Q. -X. Mei, R. Yao, W. -Q. Lian, M. -L. Cai, Y. Wang, B. -X. Qi, L. Yao, L. He, Z. -C. Zhou, and L. -M. Duan, "Probing Critical Behavior of Long-Range Transverse-Field Ising Model through Quantum Kibble-Zurek Mechanism", PRX Quantum 4 1, 010302 (2023).

[1405] F. Battistel, C. Chamberland, K. Johar, R. W. J. Overwater, F. Sebastiano, L. Skoric, Y. Ueno, and M. Usman, "Real-time decoding for fault-tolerant quantum computing: progress, challenges and outlook", Nano Futures 7 3, 032003 (2023).

[1406] Marco Cattaneo, Matteo A. C. Rossi, Guillermo García-Pérez, Roberta Zambrini, and Sabrina Maniscalco, "Quantum Simulation of Dissipative Collective Effects on Noisy Quantum Computers", PRX Quantum 4 1, 010324 (2023).

[1407] Giacomo Torlai, Christopher J. Wood, Atithi Acharya, Giuseppe Carleo, Juan Carrasquilla, and Leandro Aolita, "Quantum process tomography with unsupervised learning and tensor networks", Nature Communications 14, 2858 (2023).

[1408] Raphael Kaubruegger, Athreya Shankar, Denis V. Vasilyev, and Peter Zoller, "Optimal and Variational Multiparameter Quantum Metrology and Vector-Field Sensing", PRX Quantum 4 2, 020333 (2023).

[1409] Senrui Chen, Yunchao Liu, Matthew Otten, Alireza Seif, Bill Fefferman, and Liang Jiang, "The learnability of Pauli noise", Nature Communications 14, 52 (2023).

[1410] Andrea Solfanelli, Guido Giachetti, Michele Campisi, Stefano Ruffo, and Nicolò Defenu, "Quantum heat engine with long-range advantages", New Journal of Physics 25 3, 033030 (2023).

[1411] Takahiro Tsunoda, James D. Teoh, William D. Kalfus, Stijn J. de Graaf, Benjamin J. Chapman, Jacob C. Curtis, Neel Thakur, Steven M. Girvin, and Robert J. Schoelkopf, "Error-Detectable Bosonic Entangling Gates with a Noisy Ancilla", PRX Quantum 4 2, 020354 (2023).

[1412] Pratibha Raghupati Hegde, Gianluca Passarelli, Giovanni Cantele, and Procolo Lucignano, "Deep learning optimal quantum annealing schedules for random Ising models", New Journal of Physics 25 7, 073013 (2023).

[1413] Alvin Gonzales, Ruslan Shaydulin, Zain H. Saleem, and Martin Suchara, "Quantum error mitigation by Pauli check sandwiching", Scientific Reports 13, 2122 (2023).

[1414] William M. Watkins, Samuel Yen-Chi Chen, and Shinjae Yoo, "Quantum machine learning with differential privacy", Scientific Reports 13, 2453 (2023).

[1415] Alexander O. Sushkov, "Quantum Science and the Search for Axion Dark Matter", PRX Quantum 4 2, 020101 (2023).

[1416] P. Dhilipan, K. Srinivasan, and G. Raghavan, "Bipartite entanglement distillation by unilateral and bilateral local filters using polarizing Mach-Zehnder interferometers", Journal of Applied Physics 133 18, 184401 (2023).

[1417] Zheng-Hang Sun, Yong-Yi Wang, Jian Cui, and Heng Fan, "Improving the performance of quantum approximate optimization for preparing non-trivial quantum states without translational symmetry", New Journal of Physics 25 1, 013015 (2023).

[1418] Kerstin Borras, Su Yeon Chang, Lena Funcke, Michele Grossi, Tobias Hartung, Karl Jansen, Dirk Kruecker, Stefan Kühn, Florian Rehm, Cenk Tüysüz, and Sofia Vallecorsa, "Impact of quantum noise on the training of quantum Generative Adversarial Networks", Journal of Physics Conference Series 2438 1, 012093 (2023).

[1419] A. I. Gircha, A. S. Boev, K. Avchaciov, P. O. Fedichev, and A. K. Fedorov, "Hybrid quantum-classical machine learning for generative chemistry and drug design", Scientific Reports 13, 8250 (2023).

[1420] Junyu Liu, Changchun Zhong, Matthew Otten, Anirban Chandra, Cristian L. Cortes, Chaoyang Ti, Stephen K Gray, and Xu Han, "Quantum Kerr learning", Machine Learning: Science and Technology 4 2, 025003 (2023).

[1421] Sean J. Weinberg, Fabio Sanches, Takanori Ide, Kazumitzu Kamiya, and Randall Correll, "Supply chain logistics with quantum and classical annealing algorithms", Scientific Reports 13, 4770 (2023).

[1422] Harshdeep Singh, Sonjoy Majumder, and Sabyashachi Mishra, "Benchmarking of different optimizers in the variational quantum algorithms for applications in quantum chemistry", Journal of Chemical Physics 159 4, 044117 (2023).

[1423] Sonaldeep Halder, Chinmay Shrikhande, and Rahul Maitra, "Development of zero-noise extrapolated projective quantum algorithm for accurate evaluation of molecular energetics in noisy quantum devices", Journal of Chemical Physics 159 11, 114115 (2023).

[1424] Huan-Yu Liu, Tai-Ping Sun, Yu-Chun Wu, Yong-Jian Han, and Guo-Ping Guo, "Mitigating barren plateaus with transfer-learning-inspired parameter initializations", New Journal of Physics 25 1, 013039 (2023).

[1425] Steven Crisostomo, Ryan Pederson, John Kozlowski, Bhupalee Kalita, Antonio C. Cancio, Kiril Datchev, Adam Wasserman, Suhwan Song, and Kieron Burke, "Seven useful questions in density functional theory", Letters in Mathematical Physics 113 2, 42 (2023).

[1426] Muhammad Kashif and Saif Al-Kuwari, "The impact of cost function globality and locality in hybrid quantum neural networks on NISQ devices", Machine Learning: Science and Technology 4 1, 015004 (2023).

[1427] Sebastián V. Romero, Eneko Osaba, Esther Villar-Rodriguez, Izaskun Oregi, and Yue Ban, "Hybrid approach for solving real-world bin packing problem instances using quantum annealers", Scientific Reports 13, 11777 (2023).

[1428] Ramis Movassagh, "The hardness of random quantum circuits", Nature Physics 19 11, 1719 (2023).

[1429] Siheon Park, Daniel K. Park, and June-Koo Kevin Rhee, "Variational quantum approximate support vector machine with inference transfer", Scientific Reports 13, 3288 (2023).

[1430] Gunhee Park, Joonsuk Huh, and Daniel K. Park, "Variational quantum one-class classifier", Machine Learning: Science and Technology 4 1, 015006 (2023).

[1431] Chufan Lyu, Xiaoyu Tang, Junning Li, Xusheng Xu, Man-Hong Yung, and Abolfazl Bayat, "Variational quantum simulation of long-range interacting systems", New Journal of Physics 25 5, 053022 (2023).

[1432] Srinivasan S. Iyengar, Juncheng Harry Zhang, Debadrita Saha, and Timothy C. Ricard, "Graph-|Q⟩⟨C|: A Quantum Algorithm with Reduced Quantum Circuit Depth for Electronic Structure", Journal of Physical Chemistry A 127 44, 9334 (2023).

[1433] Vu Tuan Hai and Le Bin Ho, "Universal compilation for quantum state tomography", Scientific Reports 13, 3750 (2023).

[1434] Yeonghun Lee, "Symmetric Trotterization in digital quantum simulation of quantum spin dynamics", Journal of Korean Physical Society 82 5, 479 (2023).

[1435] Mahsa Karimi, Ali Javadi-Abhari, Christoph Simon, and Roohollah Ghobadi, "The power of one clean qubit in supervised machine learning", Scientific Reports 13, 19975 (2023).

[1436] Zilu Chen, Xinyu Chen, Yibo Jiang, Xueyun Cheng, and Zhijin Guan, "Routing Strategy for Distributed Quantum Circuit based on Optimized Gate Transmission Direction", International Journal of Theoretical Physics 62 12, 255 (2023).

[1437] Oskar Słowik and Adam Sawicki, "Calculable lower bounds on the efficiency of universal sets of quantum gates", Journal of Physics A Mathematical General 56 11, 115304 (2023).

[1438] Cica Gustiani, Richard Meister, and Simon C. Benjamin, "Exploiting subspace constraints and ab initio variational methods for quantum chemistry", New Journal of Physics 25 7, 073019 (2023).

[1439] Connor Powers, Lindsay Bassman Oftelie, Daan Camps, and Wibe A. de Jong, "Exploring finite temperature properties of materials with quantum computers", Scientific Reports 13, 1986 (2023).

[1440] P. Chamorro-Posada and J. C. Garcia-Escartin, "The SWITCH test for discriminating quantum evolutions", Journal of Physics A Mathematical General 56 35, 355301 (2023).

[1441] Büsra Kösoglu-Kind, Robert Loredo, Michele Grossi, Christian Bernecker, Jody M. Burks, and Rüdiger Buchkremer, "A biological sequence comparison algorithm using quantum computers", Scientific Reports 13, 14552 (2023).

[1442] Agung Budiyono, Bobby E. Gunara, Bagus E. B. Nurhandoko, and Hermawan K. Dipojono, "General quantum correlation from nonreal values of Kirkwood-Dirac quasiprobability over orthonormal product bases", Journal of Physics A Mathematical General 56 43, 435301 (2023).

[1443] Teppei Suzuki, Tsubasa Miyazaki, Toshiki Inaritai, and Takahiro Otsuka, "Quantum AI simulator using a hybrid CPU-FPGA approach", Scientific Reports 13, 7735 (2023).

[1444] Takahiro Yoshikura, Seiichiro L. Ten-no, and Takashi Tsuchimochi, "Quantum Inverse Algorithm via Adaptive Variational Quantum Linear Solver: Applications to General Eigenstates", Journal of Physical Chemistry A 127 31, 6577 (2023).

[1445] Yizhi Wang, Shichuan Xue, Yaxuan Wang, Yong Liu, Jiangfang Ding, Weixu Shi, Dongyang Wang, Yingwen Liu, Xiang Fu, Guangyao Huang, Anqi Huang, Mingtang Deng, and Junjie Wu, "Quantum generative adversarial learning in photonics", Optics Letters 48 20, 5197 (2023).

[1446] Mingyu Cai, Shaoping Xiao, Junchao Li, and Zhen Kan, "Safe reinforcement learning under temporal logic with reward design and quantum action selection", Scientific Reports 13, 1925 (2023).

[1447] Arseny Kovyrshin, Mårten Skogh, Anders Broo, Stefano Mensa, Emre Sahin, Jason Crain, and Ivano Tavernelli, "A quantum computing implementation of nuclearelectronic orbital (NEO) theory: Toward an exact pre-Born-Oppenheimer formulation of molecular quantum systems", Journal of Chemical Physics 158 21, 214119 (2023).

[1448] Sonaldeep Halder, Chayan Patra, Dibyendu Mondal, and Rahul Maitra, "Machine learning aided dimensionality reduction toward a resource efficient projective quantum eigensolver: Formal development and pilot applications", Journal of Chemical Physics 158 24, 244101 (2023).

[1449] S. Carrazza, S. Efthymiou, M. Lazzarin, and A. Pasquale, "An open-source modular framework for quantum computing", Journal of Physics Conference Series 2438 1, 012148 (2023).

[1450] Maximilian Amsler, Peter Deglmann, Matthias Degroote, Michael P. Kaicher, Matthew Kiser, Michael Kühn, Chandan Kumar, Andreas Maier, Georgy Samsonidze, Anna Schroeder, Michael Streif, Davide Vodola, Christopher Wever, and Qutac Material Science Working Group, "Classical and quantum trial wave functions in auxiliary-field quantum Monte Carlo applied to oxygen allotropes and a CuBr<SUB>2</SUB> model system", Journal of Chemical Physics 159 4, 044119 (2023).

[1451] Pablo Bermejo and Román Orús, "Variational quantum non-orthogonal optimization", Scientific Reports 13, 9840 (2023).

[1452] Juntao Lai, Yi Fan, Qiang Fu, Zhenyu Li, and Jinlong Yang, "Accurate and efficient calculations of Hellmann-Feynman forces for quantum computation", Journal of Chemical Physics 159 11, 114113 (2023).

[1453] Yongbin Kim and Anna I. Krylov, "Two Algorithms for Excited-State Quantum Solvers: Theory and Application to EOM-UCCSD", Journal of Physical Chemistry A 127 31, 6552 (2023).

[1454] Daisuke Tsukayama, Jun-ichi Shirakashi, and Hiroshi Imai, "CoolMomentum mitigating local minima in variational quantum eigensolvers", Japanese Journal of Applied Physics 62 8, 088003 (2023).

[1455] Filipe F. C. Silva, Pedro M. S. Carvalho, and Luís A. F. M. Ferreira, "A quantum computing approach for minimum loss problems in electrical distribution networks", Scientific Reports 13, 10777 (2023).

[1456] Giuseppe Buonaiuto, Francesco Gargiulo, Giuseppe De Pietro, Massimo Esposito, and Marco Pota, "Best practices for portfolio optimization by quantum computing, experimented on real quantum devices", Scientific Reports 13, 19434 (2023).

[1457] Yulun Wang and Predrag S. Krstić, "Multistate transition dynamics by strong time-dependent perturbation in NISQ era", Journal of Physics Communications 7 7, 075004 (2023).

[1458] Chenyi Huang and Shibin Zhang, "Enhancing adversarial robustness of quantum neural networks by adding noise layers", New Journal of Physics 25 8, 083019 (2023).

[1459] Ishaan Ganti and Srinivasan S. Iyengar, "Quantum Computing with Dartboards", Journal of Physical Chemistry A 127 37, 7853 (2023).

[1460] Byeongyong Park and Doyeol Ahn, "Reducing CNOT count in quantum Fourier transform for the linear nearest-neighbor architecture", Scientific Reports 13, 8638 (2023).

[1461] Youyi Huang and Lu Wei, "Entanglement capacity of fermionic Gaussian states", Journal of Physics A Mathematical General 56 43, 435201 (2023).

[1462] Tomochika Kurita, Mikio Morita, Hirotaka Oshima, and Shintaro Sato, "Pauli String Partitioning Algorithm with the Ising Model for Simultaneous Measurements", Journal of Physical Chemistry A 127 4, 1068 (2023).

[1463] Akram Youssry, Gerardo A. Paz-Silva, and Christopher Ferrie, "Noise detection with spectator qubits and quantum feature engineering", New Journal of Physics 25 7, 073004 (2023).

[1464] Tailong Xiao, Jingzheng Huang, Hongjing Li, Jianping Fan, and Guihua Zeng, "Quantum generative adversarial imitation learning", New Journal of Physics 25 3, 033034 (2023).

[1465] Tanner Culpitt, Erik I. Tellgren, and Fabijan Pavošević, "Unitary coupled-cluster for quantum computation of molecular properties in a strong magnetic field", Journal of Chemical Physics 159 20, 204101 (2023).

[1466] Jessie M. Henderson, Marianna Podzorova, M. Cerezo, John K. Golden, Leonard Gleyzer, Hari S. Viswanathan, and Daniel O'Malley, "Quantum algorithms for geologic fracture networks", Scientific Reports 13, 2906 (2023).

[1467] Davinder Singh, Seogjoo J. Jang, and Changbong Hyeon, "Fundamental trade-off between the speed of light and the Fano factor of photon current in three-level lambda systems", Journal of Physics A Mathematical General 56 1, 015001 (2023).

[1468] LeeAnn M. Sager-Smith, Scott E. Smart, and David A. Mazziotti, "Qubit Condensation for Assessing Efficacy of Molecular Simulation on Quantum Computers", Journal of Physical Chemistry A 127 29, 6032 (2023).

[1469] P. Mironowicz, "Entangled rendezvous: a possible application of Bell non-locality for mobile agents on networks", New Journal of Physics 25 1, 013023 (2023).

[1470] Yan-Lin Tang, Zhi-Lin Xie, Chun Zhou, Dexiang Zhang, Mu-Lan Xu, Jian Sun, De Sun, Yong-Xiang Xu, Li-Wei Wang, Yan Ma, Yu-Kang Zhao, Mu-Sheng Jiang, Yang Wang, Jian Li, Kaiping Xue, Nenghai Yu, Mei-Sheng Zhao, Dong-Dong Li, Wan-Su Bao, and Shi-Biao Tang, "Field test of quantum key distribution over aerial fiber based on simple and stable modulation", Optics Express 31 16, 26301 (2023).

[1471] Changwon Lee and Daniel K. Park, "Scalable quantum measurement error mitigation via conditional independence and transfer learning", Machine Learning: Science and Technology 4 4, 045051 (2023).

[1472] Yifan Zhou, Peng Zhang, and Fei Feng, "Noisy-Intermediate-Scale Quantum Electromagnetic Transients Program", IEEE Transactions on Power Systems 38 2, 1558 (2023).

[1473] Chia-Hsiang Lin and You-Yao Chen, "HyperQUEEN: Hyperspectral Quantum Deep Network For Image Restoration", IEEE Transactions on Geoscience and Remote Sensing 61, 3274355 (2023).

[1474] M. O. Lisnchenko and S. I. Protasov, "Protein folding quantum circuit quantum circuit for bio material modelling compression", Materials of Electronics Engineering 25 4, 305 (2023).

[1475] Daniel Oliveira, Elizabeth Auden, and Paolo Rech, "Atmospheric Neutron-Induced Fault Generation and Propagation in Quantum Bits and Quantum Circuits", IEEE Transactions on Nuclear Science 70 4, 345 (2023).

[1476] Ning Yang and Jing Guo, "A Quantum-Computing-Based Method for Solving Quantum Confinement Problem in Semiconductor", IEEE Transactions on Electron Devices 70 3, 1366 (2023).

[1477] Prabin Parajuli, Anuvetha Govindarajan, and Lin Tian, "State preparation in a Jaynes-Cummings lattice with quantum optimal control", Scientific Reports 13, 19924 (2023).

[1478] Mostafa Motamedifar, Fatemeh Sadeghi, and Mojtaba Golshani, "Entanglement transmission due to the Dzyaloshinskii-Moriya interaction", Scientific Reports 13, 2932 (2023).

[1479] Zixuan Hu and Sabre Kais, "Characterizing quantum circuits with qubit functional configurations", Scientific Reports 13, 5539 (2023).

[1480] Rajni Bala, Sooryansh Asthana, and V. Ravishankar, "Combating errors in quantum communication: an integrated approach", Scientific Reports 13, 2979 (2023).

[1481] Karol Bartkiewicz, Patrycja Tulewicz, Jan Roik, and Karel Lemr, "Synergic quantum generative machine learning", Scientific Reports 13, 12893 (2023).

[1482] Ali Shaib, Mohamad Hussein Naim, Mohammed E. Fouda, Rouwaida Kanj, and Fadi Kurdahi, "Efficient noise mitigation technique for quantum computing", Scientific Reports 13, 3912 (2023).

[1483] Jelena Mackeprang, Daniel Bhatti, and Stefanie Barz, "Non-adaptive measurement-based quantum computation on IBM Q", Scientific Reports 13, 15428 (2023).

[1484] Hinako Asaoka and Kazue Kudo, "Nonnegative/Binary matrix factorization for image classification using quantum annealing", Scientific Reports 13, 16527 (2023).

[1485] Md Abrar Jahin, Md Sakib Hossain Shovon, Md. Saiful Islam, Jungpil Shin, M. F. Mridha, and Yuichi Okuyama, "QAmplifyNet: pushing the boundaries of supply chain backorder prediction using interpretable hybrid quantum-classical neural network", Scientific Reports 13, 18246 (2023).

[1486] Ju-Young Ryu, Eyuel Elala, and June-Koo Kevin Rhee, "Quantum Graph Neural Network Models for Materials Search", Materials 16 12, 4300 (2023).

[1487] Weiwen Kong, Yongmei Sun, Yaoxian Gao, and Yuefeng Ji, "Coexistence of quantum key distribution and optical communication with amplifiers over multicore fiber", Nanophotonics 12 11, 47 (2023).

[1488] G. Paradezhenko, A. Pervishko, and D. Yudin, "Tensor Train Optimization of Parameterized Quantum Circuits", Soviet Journal of Experimental and Theoretical Physics Letters 118 12, 938 (2023).

[1489] Anthony W. Schlimgen, Yangyang Guo, and Kade Head-Marsden, "Characterizing Excited States of a Copper-Based Molecular Qubit Candidate with Correlated Electronic Structure Methods", Journal of Physical Chemistry A 127 32, 6764 (2023).

[1490] Aleksey N. Bolgar, Shtefan V. Sanduleanu, Aleksandr Strelnikov, and Oleg V. Astafiev, "High Quality Quasinormal Modes of Phononic Crystals for Quantum Acoustodynamics", Journal of Low Temperature Physics 210 5-6, 573 (2023).

[1491] Soichiro Nishio, Yuki Oba, and Yuki Kurashige, "Statistical errors in reduced density matrices sampled from quantum circuit simulation and the impact on multireference perturbation theory", Physical Chemistry Chemical Physics (Incorporating Faraday Transactions) 25 44, 30525 (2023).

[1492] V. E. Zobov and A. A. Lundin, "Dependence of the Relaxation Rate of Coherent States on the Number of Correlated Spins and the Order of Coherence", Soviet Journal of Experimental and Theoretical Physics Letters 117 12, 932 (2023).

[1493] Toru Fujii, Koshi Komuro, Yosuke Okudaira, and Masayasu Sawada, "Eigenvalue-Invariant Transformation of Ising Problem for Anti-Crossing Mitigation in Quantum Annealing", Journal of the Physical Society of Japan 92 4, 044001 (2023).

[1494] Hang Lian, Jinchen Xu, Yu Zhu, Zhiqiang Fan, Yi Liu, and Zheng Shan, "Fast reconstruction algorithm based on HMC sampling", Scientific Reports 13, 17773 (2023).

[1495] Hideaki Kawaguchi, "Application of quantum computing to a linear non-Gaussian acyclic model for novel medical knowledge discovery", PLoS ONE 18 4, e0283933 (2023).

[1496] Muhammad Abdullah Ijaz and Muhammad Faryad, "Noise analysis of Grover and phase estimation algorithms implemented as quantum singular value transformations for a small number of noisy qubits", Scientific Reports 13, 20144 (2023).

[1497] HeeBong Yang and Na Young Kim, "Material-Inherent Noise Sources in Quantum Information Architecture", Materials 16 7, 2561 (2023).

[1498] Hongzheng Zhao, Marin Bukov, Markus Heyl, and Roderich Moessner, "Making Trotterization Adaptive and Energy-Self-Correcting for NISQ Devices and Beyond", PRX Quantum 4 3, 030319 (2023).

[1499] Kento Tsubouchi, Yasunari Suzuki, Yuuki Tokunaga, Nobuyuki Yoshioka, and Suguru Endo, "Virtual quantum error detection", Physical Review A 108 4, 042426 (2023).

[1500] Jong Yeon Lee, Chao-Ming Jian, and Cenke Xu, "Quantum Criticality Under Decoherence or Weak Measurement", PRX Quantum 4 3, 030317 (2023).

[1501] Rawad Mezher, Ana Filipa Carvalho, and Shane Mansfield, "Solving graph problems with single photons and linear optics", Physical Review A 108 3, 032405 (2023).

[1502] Zhou Yang, Dan Mao, and Chao-Ming Jian, "Entanglement in a one-dimensional critical state after measurements", Physical Review B 108 16, 165120 (2023).

[1503] Maurits S. J. Tepaske and David J. Luitz, "Compressed quantum error mitigation", Physical Review B 107 20, L201114 (2023).

[1504] Xhek Turkeshi, Marco Schirò, and Piotr Sierant, "Measuring nonstabilizerness via multifractal flatness", Physical Review A 108 4, 042408 (2023).

[1505] Rong-Yang Sun, Tomonori Shirakawa, and Seiji Yunoki, "Parametrized quantum circuit for weight-adjustable quantum loop gas", Physical Review B 107 4, L041109 (2023).

[1506] Niklas Mueller, Joseph A. Carolan, Andrew Connelly, Zohreh Davoudi, Eugene F. Dumitrescu, and Kübra Yeter-Aydeniz, "Quantum Computation of Dynamical Quantum Phase Transitions and Entanglement Tomography in a Lattice Gauge Theory", PRX Quantum 4 3, 030323 (2023).

[1507] Hugo Lóio, Andrea De Luca, Jacopo De Nardis, and Xhek Turkeshi, "Purification timescales in monitored fermions", Physical Review B 108 2, L020306 (2023).

[1508] Mario Krenn, Jonas Landgraf, Thomas Foesel, and Florian Marquardt, "Artificial intelligence and machine learning for quantum technologies", Physical Review A 107 1, 010101 (2023).

[1509] Elmer V. H. Doggen, Yuval Gefen, Igor V. Gornyi, Alexander D. Mirlin, and Dmitry G. Polyakov, "Evolution of many-body systems under ancilla quantum measurements", Physical Review B 107 21, 214203 (2023).

[1510] Shayan Majidy, Utkarsh Agrawal, Sarang Gopalakrishnan, Andrew C. Potter, Romain Vasseur, and Nicole Yunger Halpern, "Critical phase and spin sharpening in SU(2)-symmetric monitored quantum circuits", Physical Review B 108 5, 054307 (2023).

[1511] Yabo Li, Hiroki Sukeno, Aswin Parayil Mana, Hendrik Poulsen Nautrup, and Tzu-Chieh Wei, "Symmetry-enriched topological order from partially gauging symmetry-protected topologically ordered states assisted by measurements", Physical Review B 108 11, 115144 (2023).

[1512] Zhi Li, Shengqi Sang, and Timothy H. Hsieh, "Entanglement dynamics of noisy random circuits", Physical Review B 107 1, 014307 (2023).

[1513] Rong-Yang Sun, Tomonori Shirakawa, and Seiji Yunoki, "Efficient variational quantum circuit structure for correlated topological phases", Physical Review B 108 7, 075127 (2023).

[1514] Sajant Anand, Johannes Hauschild, Yuxuan Zhang, Andrew C. Potter, and Michael P. Zaletel, "Holographic Quantum Simulation of Entanglement Renormalization Circuits", PRX Quantum 4 3, 030334 (2023).

[1515] Marco Fellous-Asiani, Jing Hao Chai, Yvain Thonnart, Hui Khoon Ng, Robert S. Whitney, and Alexia Auffèves, "Optimizing Resource Efficiencies for Scalable Full-Stack Quantum Computers", PRX Quantum 4 4, 040319 (2023).

[1516] Caroline E. P. Robin and Martin J. Savage, "Quantum simulations in effective model spaces: Hamiltonian-learning variational quantum eigensolver using digital quantum computers and application to the Lipkin-Meshkov-Glick model", Physical Review C 108 2, 024313 (2023).

[1517] Guido Giachetti, Andrea Solfanelli, Lorenzo Correale, and Nicolò Defenu, "Fractal nature of high-order time crystal phases", Physical Review B 108 14, L140102 (2023).

[1518] S. Shin, Y. S. Teo, and H. Jeong, "Exponential data encoding for quantum supervised learning", Physical Review A 107 1, 012422 (2023).

[1519] Longcheng Li, Cheng Guo, Qian Li, and Xiaoming Sun, "Fast exact synthesis of two-qubit unitaries using a near-minimum number of T gates", Physical Review A 107 4, 042424 (2023).

[1520] Yannick Deller, Sebastian Schmitt, Maciej Lewenstein, Steve Lenk, Marika Federer, Fred Jendrzejewski, Philipp Hauke, and Valentin Kasper, "Quantum approximate optimization algorithm for qudit systems", Physical Review A 107 6, 062410 (2023).

[1521] Stefan H. Sack, Raimel A. Medina, Richard Kueng, and Maksym Serbyn, "Recursive greedy initialization of the quantum approximate optimization algorithm with guaranteed improvement", Physical Review A 107 6, 062404 (2023).

[1522] Soumi Ghosh, Manas Kulkarni, and Sthitadhi Roy, "Eigenvector correlations across the localization transition in non-Hermitian power-law banded random matrices", Physical Review B 108 6, L060201 (2023).

[1523] Aditi Misra-Spieldenner, Tim Bode, Peter K. Schuhmacher, Tobias Stollenwerk, Dmitry Bagrets, and Frank K. Wilhelm, "Mean-Field Approximate Optimization Algorithm", PRX Quantum 4 3, 030335 (2023).

[1524] Yong Siah Teo, Seongwook Shin, Hyukgun Kwon, Seok-Hyung Lee, and Hyunseok Jeong, "Virtual distillation with noise dilution", Physical Review A 107 2, 022608 (2023).

[1525] Balázs Gulácsi and Guido Burkard, "Signatures of non-Markovianity of a superconducting qubit", Physical Review B 107 17, 174511 (2023).

[1526] Berta Casas and Alba Cervera-Lierta, "Multidimensional Fourier series with quantum circuits", Physical Review A 107 6, 062612 (2023).

[1527] Xavier Bonet-Monroig, Hao Wang, Diederick Vermetten, Bruno Senjean, Charles Moussa, Thomas Bäck, Vedran Dunjko, and Thomas E. O'Brien, "Performance comparison of optimization methods on variational quantum algorithms", Physical Review A 107 3, 032407 (2023).

[1528] I. Joseph, Y. Shi, M. D. Porter, A. R. Castelli, V. I. Geyko, F. R. Graziani, S. B. Libby, and J. L. DuBois, "Quantum computing for fusion energy science applications", Physics of Plasmas 30 1, 010501 (2023).

[1529] Saverio Monaco, Oriel Kiss, Antonio Mandarino, Sofia Vallecorsa, and Michele Grossi, "Quantum phase detection generalization from marginal quantum neural network models", Physical Review B 107 8, L081105 (2023).

[1530] Chandan Sarma, Olivia Di Matteo, Abhishek Abhishek, and Praveen C. Srivastava, "Prediction of the neutron drip line in oxygen isotopes using quantum computation", Physical Review C 108 6, 064305 (2023).

[1531] Jian-Hao Zhang, Ke Ding, Shuo Yang, and Zhen Bi, "Fractonic higher-order topological phases in open quantum systems", Physical Review B 108 15, 155123 (2023).

[1532] Hongting Song, Areeya Chantasri, Behnam Tonekaboni, and Howard M. Wiseman, "Optimized mitigation of random-telegraph-noise dephasing by spectator-qubit sensing and control", Physical Review A 107 3, L030601 (2023).

[1533] Phillip C. Lotshaw, George Siopsis, James Ostrowski, Rebekah Herrman, Rizwanul Alam, Sarah Powers, and Travis S. Humble, "Approximate Boltzmann distributions in quantum approximate optimization", Physical Review A 108 4, 042411 (2023).

[1534] Andy C. Y. Li, Alexandru Macridin, Stephen Mrenna, and Panagiotis Spentzouris, "Simulating scalar field theories on quantum computers with limited resources", Physical Review A 107 3, 032603 (2023).

[1535] Nikita A. Nemkov, Evgeniy O. Kiktenko, and Aleksey K. Fedorov, "Fourier expansion in variational quantum algorithms", Physical Review A 108 3, 032406 (2023).

[1536] F. Orts, E. Filatovas, G. Ortega, J. F. SanJuan-Estrada, and E. M. Garzón, "Improving the number of T gates and their spread in integer multipliers on quantum computing", Physical Review A 107 4, 042621 (2023).

[1537] Bhilahari Jeevanesan, "Quantum scar states in coupled random graph models", Physical Review B 108 7, 075131 (2023).

[1538] Mao Lin, Christopher Chamberland, and Kyungjoo Noh, "Closest Lattice Point Decoding for Multimode Gottesman-Kitaev-Preskill Codes", PRX Quantum 4 4, 040334 (2023).

[1539] N. M. Guseynov, A. A. Zhukov, W. V. Pogosov, and A. V. Lebedev, "Depth analysis of variational quantum algorithms for the heat equation", Physical Review A 107 5, 052422 (2023).

[1540] Weijie Du and James P. Vary, "Multinucleon structure and dynamics via quantum computing", Physical Review A 108 5, 052614 (2023).

[1541] Steffen Backes, Yuta Murakami, Shiro Sakai, and Ryotaro Arita, "Dynamical mean-field theory for the Hubbard-Holstein model on a quantum device", Physical Review B 107 16, 165155 (2023).

[1542] Nicholas H. Stair, Cristian L. Cortes, Robert M. Parrish, Jeffrey Cohn, and Mario Motta, "Stochastic quantum Krylov protocol with double-factorized Hamiltonians", Physical Review A 107 3, 032414 (2023).

[1543] Jack Y. Araz and Michael Spannowsky, "Quantum-probabilistic Hamiltonian learning for generative modeling and anomaly detection", Physical Review A 108 6, 062422 (2023).

[1544] Ryan Shaffer, Lucas Kocia, and Mohan Sarovar, "Surrogate-based optimization for variational quantum algorithms", Physical Review A 107 3, 032415 (2023).

[1545] Carla Rodríguez, Dario Rosa, and Jan Olle, "Artificial intelligence discovery of a charging protocol in a micromaser quantum battery", Physical Review A 108 4, 042618 (2023).

[1546] Junyu Liu, Connor T. Hann, and Liang Jiang, "Data centers with quantum random access memory and quantum networks", Physical Review A 108 3, 032610 (2023).

[1547] Anoosha Fayyaz and J. P. Kestner, "Enhanced local addressability of a spin array with local exchange pulses and global microwave driving", Physical Review B 108 8, L081303 (2023).

[1548] Anita Weidinger, Glen Bigan Mbeng, and Wolfgang Lechner, "Error mitigation for quantum approximate optimization", Physical Review A 108 3, 032408 (2023).

[1549] J. Gidi, B. Candia, A. D. Muñoz-Moller, A. Rojas, L. Pereira, M. Muñoz, L. Zambrano, and A. Delgado, "Stochastic optimization algorithms for quantum applications", Physical Review A 108 3, 032409 (2023).

[1550] Hai Wang, Jue Nan, Tao Zhang, Xingze Qiu, Wenlan Chen, and Xiaopeng Li, "Kernel function based quantum algorithms for finite temperature quantum simulation", Physical Review B 108 8, 085102 (2023).

[1551] Vaibhav Sharma, Chao-Ming Jian, and Erich J. Mueller, "Subsystem symmetry, spin-glass order, and criticality from random measurements in a two-dimensional Bacon-Shor circuit", Physical Review B 108 2, 024205 (2023).

[1552] Shaojie Yuan, Chuanpu Liu, Jilei Chen, Song Liu, Jin Lan, Haiming Yu, Jiansheng Wu, Fei Yan, Man-Hong Yung, Jiang Xiao, Liang Jiang, and Dapeng Yu, "Spin-wave-based tunable coupler between superconducting flux qubits", Physical Review A 107 1, 012434 (2023).

[1553] Guilherme Fiusa, Diogo O. Soares-Pinto, and Diego Paiva Pires, "Fidelity-based distance bounds for N -qubit approximate quantum error correction", Physical Review A 107 3, 032422 (2023).

[1554] G. Xu, Y. B. Guo, X. Li, K. Wang, Z. Fan, Z. S. Zhou, H. J. Liao, and T. Xiang, "Concurrent quantum eigensolver for multiple low-energy eigenstates", Physical Review A 107 5, 052423 (2023).

[1555] Shihao Zhang, Junda Wu, and Lvzhou Li, "Characterization, synthesis, and optimization of quantum circuits over multiple-control Z -rotation gates: A systematic study", Physical Review A 108 2, 022603 (2023).

[1556] Tom Rindell, Berat Yenilen, Niklas Halonen, Arttu Pönni, Ilkka Tittonen, and Matti Raasakka, "Exploring the optimality of approximate state preparation quantum circuits with a genetic algorithm", Physics Letters A 475, 128860 (2023).

[1557] D. V. Babukhin, "Harrow-Hassidim-Lloyd algorithm without ancilla postselection", Physical Review A 107 4, 042408 (2023).

[1558] Takuya Okuda, "Schwinger model on an interval: Analytic results and DMRG", Physical Review D 107 5, 054506 (2023).

[1559] F. Cosco and N. Lo Gullo, "Enhancing qubit readout with Bayesian learning", Physical Review A 108 6, L060402 (2023).

[1560] Edgar Andres Ruiz Guzman and Denis Lacroix, "Restoring broken symmetries using quantum search "oracles"", Physical Review C 107 3, 034310 (2023).

[1561] Simon Stastny, Hans Peter Büchler, and Nicolai Lang, "Functional completeness of planar Rydberg blockade structures", Physical Review B 108 8, 085138 (2023).

[1562] Eoin Carolan, Barış çakmak, and Steve Campbell, "Robustness of controlled Hamiltonian approaches to unitary quantum gates", Physical Review A 108 2, 022423 (2023).

[1563] Stefano Polla, Gian-Luca R. Anselmetti, and Thomas E. O'Brien, "Optimizing the information extracted by a single qubit measurement", Physical Review A 108 1, 012403 (2023).

[1564] Alan Morningstar, David A. Huse, and Vedika Khemani, "Universality classes of thermalization for mesoscopic Floquet systems", Physical Review B 108 17, 174303 (2023).

[1565] Jorge Miguel-Ramiro, Zheng Shi, Luca Dellantonio, Albie Chan, Christine A. Muschik, and Wolfgang Dür, "Enhancing quantum computation via superposition of quantum gates", Physical Review A 108 6, 062604 (2023).

[1566] Paul Méhaignerie, Clément Sayrin, Jean-Michel Raimond, Michel Brune, and Guillaume Roux, "Spin-motion coupling in a circular-Rydberg-state quantum simulator: Case of two atoms", Physical Review A 107 6, 063106 (2023).

[1567] Bodo Rosenhahn and Tobias J. Osborne, "Monte Carlo graph search for quantum circuit optimization", Physical Review A 108 6, 062615 (2023).

[1568] David Headley and Frank K. Wilhelm, "Problem-size-independent angles for a Grover-driven quantum approximate optimization algorithm", Physical Review A 107 1, 012412 (2023).

[1569] Fabio Zoratti, Giacomo De Palma, Bobak Kiani, Quynh T. Nguyen, Milad Marvian, Seth Lloyd, and Vittorio Giovannetti, "Improving the speed of variational quantum algorithms for quantum error correction", Physical Review A 108 2, 022611 (2023).

[1570] Pierpaolo Fontana, Joao C. Pinto Barros, and Andrea Trombettoni, "Quantum simulator of link models using spinor dipolar ultracold atoms", Physical Review A 107 4, 043312 (2023).

[1571] Joris Kattemölle and Guido Burkard, "Ability of error correlations to improve the performance of variational quantum algorithms", Physical Review A 107 4, 042426 (2023).

[1572] Jannis Ruh, Regina Finsterhoelzl, and Guido Burkard, "Digital quantum simulation of the BCS model with a central-spin-like quantum processor", Physical Review A 107 6, 062604 (2023).

[1573] Troy J. Sewell, Ning Bao, and Stephen P. Jordan, "Variational quantum simulation of the critical Ising model with symmetry averaging", Physical Review A 107 4, 042620 (2023).

[1574] Donggyu Kim, Pureum Noh, Hyun-Yong Lee, and Eun-Gook Moon, "Advancing hybrid quantum-classical algorithms via mean operators", Physical Review A 108 1, L010401 (2023).

[1575] Behnam Tonekaboni, Areeya Chantasri, Hongting Song, Yanan Liu, and Howard M. Wiseman, "Greedy versus map-based optimized adaptive algorithms for random-telegraph-noise mitigation by spectator qubits", Physical Review A 107 3, 032401 (2023).

[1576] Evan Peters, Andy C. Y. Li, and Gabriel N. Perdue, "Perturbative readout-error mitigation for near-term quantum computers", Physical Review A 107 6, 062426 (2023).

[1577] Gaurav Gyawali, Mabrur Ahmed, Eric W. Aspling, Luke Ellert-Beck, and Michael J. Lawler, "Revealing microcanonical phases and phase transitions of strongly correlated systems via time-averaged classical shadows", Physical Review B 108 23, 235141 (2023).

[1578] Xiaodie Lin, Zhenyu Chen, and Zhaohui Wei, "Quantifying quantum entanglement via a hybrid quantum-classical machine learning framework", Physical Review A 107 6, 062409 (2023).

[1579] Tzula B. Propp, Sayonee Ray, John B. DeBrota, Tameem Albash, and Ivan H. Deutsch, "Decoherence limiting the cost to simulate an anharmonic oscillator", Physical Review A 108 6, 062219 (2023).

[1580] Daniel T. Chen, Brian Doolittle, Jeffrey Larson, Zain H. Saleem, and Eric Chitambar, "Inferring Quantum Network Topology Using Local Measurements", PRX Quantum 4 4, 040347 (2023).

[1581] Irtaza Khalid, Carrie A. Weidner, Edmond A. Jonckheere, Sophie G. Shermer, and Frank C. Langbein, "Statistically characterizing robustness and fidelity of quantum controls and quantum control algorithms", Physical Review A 107 3, 032606 (2023).

[1582] P. Renault, J. Nokkala, G. Roeland, N. Y. Joly, R. Zambrini, S. Maniscalco, J. Piilo, N. Treps, and V. Parigi, "Experimental Optical Simulator of Reconfigurable and Complex Quantum Environment", PRX Quantum 4 4, 040310 (2023).

[1583] Yongdan Yang, Zongkang Zhang, Xiaosi Xu, Bing-Nan Lu, and Ying Li, "Quantum algorithms for optimal effective theory of many-body systems", Physical Review A 108 3, 032403 (2023).

[1584] Phillip C. Lotshaw, Kevin D. Battles, Bryan Gard, Gilles Buchs, Travis S. Humble, and Creston D. Herold, "Modeling noise in global Mølmer-Sørensen interactions applied to quantum approximate optimization", Physical Review A 107 6, 062406 (2023).

[1585] Sumin Lim, Junjie Liu, and Arzhang Ardavan, "Fault-tolerant qubit encoding using a spin-7/2 qudit", Physical Review A 108 6, 062403 (2023).

[1586] Xiaoyang Wang, Xu Feng, Tobias Hartung, Karl Jansen, and Paolo Stornati, "Critical behavior of the Ising model by preparing the thermal state on a quantum computer", Physical Review A 108 2, 022612 (2023).

[1587] Agung Budiyono, "Operational interpretation and estimation of quantum trace-norm asymmetry based on weak-value measurement and some bounds", Physical Review A 108 1, 012431 (2023).

[1588] Yanjun Ji, Kathrin F. Koenig, and Ilia Polian, "Optimizing quantum algorithms on bipotent architectures", Physical Review A 108 2, 022610 (2023).

[1589] Jhih-Yuan Kao and Hsi-Sheng Goan, "Existence of Pauli-like stabilizers for every quantum error-correcting code", Physical Review A 108 3, 032414 (2023).

[1590] Sowrabh Sudevan, Daniel Azses, Emanuele G. Dalla Torre, Eran Sela, and Sourin Das, "Multipartite entanglement and quantum error identification in D -dimensional cluster states", Physical Review A 108 2, 022426 (2023).

[1591] Jiaan Qi, Xiansong Xu, Dario Poletti, and Hui Khoon Ng, "Efficacy of noisy dynamical decoupling", Physical Review A 107 3, 032615 (2023).

[1592] J. Knörzer, D. Malz, and J. I. Cirac, "Cross-platform verification in quantum networks", Physical Review A 107 6, 062424 (2023).

[1593] Daniel Azses, Maxime Dupont, Bram Evert, Matthew J. Reagor, and Emanuele G. Dalla Torre, "Navigating the noise-depth tradeoff in adiabatic quantum circuits", Physical Review B 107 12, 125127 (2023).

[1594] Riccardo Molteni, Claudio Destri, and Enrico Prati, "Optimization of the memory reset rate of a quantum echo-state network for time sequential tasks", Physics Letters A 465, 128713 (2023).

[1595] Hai-Chau Nguyen, "Information-theoretic approach to readout-error mitigation for quantum computers", Physical Review A 108 5, 052419 (2023).

[1596] Sayan Roy, Christian Otto, Raphaël Menu, and Giovanna Morigi, "Rise and fall of entanglement between two qubits in a non-Markovian bath", Physical Review A 108 3, 032205 (2023).

[1597] L. A. Ostrowski, T. J. Baker, S. N. Saadatmand, and H. M. Wiseman, "Optimized laser models with Heisenberg-limited coherence and sub-Poissonian beam photon statistics", Physical Review A 107 5, 053702 (2023).

[1598] Zhao-Ming Wang, Feng-Hua Ren, Mark S. Byrd, and Lian-Ao Wu, "Hybrid noise protection of logical qubits for universal quantum computation", Physical Review A 108 2, 022607 (2023).

[1599] Hui-Min Li, Zhi-Xi Wang, and Shao-Ming Fei, "Variational quantum algorithms for Poisson equations based on the decomposition of sparse Hamiltonians", Physical Review A 108 3, 032418 (2023).

[1600] Hongfeng Liu, Xiaodong Yang, Kai Tang, Liangyu Che, Xinfang Nie, Tao Xin, Jun Li, and Dawei Lu, "Practical quantum simulation of small-scale non-Hermitian dynamics", Physical Review A 107 6, 062608 (2023).

[1601] Pietro Torta, Glen B. Mbeng, Carlo Baldassi, Riccardo Zecchina, and Giuseppe E. Santoro, "Quantum approximate optimization algorithm applied to the binary perceptron", Physical Review B 107 9, 094202 (2023).

[1602] Y. S. Teo, "Optimized numerical gradient and Hessian estimation for variational quantum algorithms", Physical Review A 107 4, 042421 (2023).

[1603] Xi-Dan Hu, Tong Luo, and Dan-Bo Zhang, "Quantum algorithm for evaluating operator size with Bell measurements", Physical Review A 107 2, 022407 (2023).

[1604] Ido Kaplan, Muhammad Erew, Yonatan Piasetzky, Moshe Goldstein, Yaron Oz, and Haim Suchowski, "Segmented composite design of robust single-qubit quantum gates", Physical Review A 108 4, 042401 (2023).

[1605] Zhen-Peng Xu, "Characterizing arbitrary quantum networks in the noisy intermediate-scale quantum era", Physical Review A 108 4, L040201 (2023).

[1606] Ufuk Korkmaz and Deniz Türkpençe, "Quantum collisional classifier driven by information reservoirs", Physical Review A 107 1, 012432 (2023).

[1607] Stephen R. McMillan and Guido Burkard, "Resonant direct CNOT in remote double quantum dot spin qubits", Physical Review B 108 12, 125414 (2023).

[1608] Sheikh Parvez Mandal, Ahana Ghoshal, Chirag Srivastava, and Ujjwal Sen, "Invariance of success probability in Grover's quantum search under local noise with memory", Physical Review A 107 2, 022427 (2023).

[1609] Philipp M. Mutter and Guido Burkard, "Theory of qubit noise characterization using the long-time cavity transmission", Physical Review A 107 2, 022601 (2023).

[1610] Yu-Qin Chen, Shi-Xin Zhang, Chang-Yu Hsieh, and Shengyu Zhang, "Non-Hermitian ground-state-searching algorithm enhanced by a variational toolbox", Physical Review A 107 4, 042418 (2023).

[1611] G. Uthirakalyani, Anuj K. Nayak, Avhishek Chatterjee, and Lav R. Varshney, "Limits of fault tolerance on resource-constrained quantum circuits for classical problems", Physical Review A 108 5, 052425 (2023).

[1612] Xin-Yu Xu, Qing Zhou, Shuai Zhao, Shu-Ming Hu, Li Li, Nai-Le Liu, and Kai Chen, "General framework for genuine multipartite entanglement detection", Physical Review A 107 5, 052405 (2023).

[1613] Stefano Marano and Moe Z. Win, "Distributing quantum states with finite lifetime", Physical Review A 107 5, 052413 (2023).

[1614] Yuchen Luo and Xiaopeng Li, "Effect of quantum statistics on computational power of atomic quantum annealers", Physical Review A 107 1, 012608 (2023).

[1615] Jonas Koppe and Mark-Oliver Wolf, "Amplitude-based implementation of the unit step function on a quantum computer", Physical Review A 107 2, 022606 (2023).

[1616] Jin-Min Liang, Qiao-Qiao Lv, Zhi-Xi Wang, and Shao-Ming Fei, "Unified multivariate trace estimation and quantum error mitigation", Physical Review A 107 1, 012606 (2023).

[1617] Lane G. Gunderman, "Transforming collections of Pauli operators into equivalent collections of Pauli operators over minimal registers", Physical Review A 107 6, 062416 (2023).

[1618] Philipp M. Mutter and Guido Burkard, "Transmission-based noise spectroscopy for quadratic qubit-resonator interactions", Physical Review A 107 5, 052603 (2023).

[1619] Teiko Heinosaari, Daniel Reitzner, and Alessandro Toigo, "Anticipative measurements in hybrid quantum-classical computation", Physical Review A 107 3, 032612 (2023).

[1620] Fangxuan Liu and L. -M. Duan, "Computational characteristics of the random-field Ising model with long-range interaction", Physical Review A 108 1, 012415 (2023).

[1621] G. M. A. Almeida, R. F. Dutra, A. M. C. Souza, M. L. Lyra, and F. A. B. F. de Moura, "Flat-band quantum communication induced by disorder", Physical Review A 108 2, 022407 (2023).

[1622] Mohamad Niknam, Robert N. Schwartz, and Louis-S. Bouchard, "Quantum gates between mesoscopic spin ensembles", Physical Review A 107 3, 032601 (2023).

[1623] Kai Klocke and Michael Buchhold, "Majorana Loop Models for Measurement-Only Quantum Circuits", Physical Review X 13 4, 041028 (2023).

[1624] Igor Poboiko, Paul Pöpperl, Igor V. Gornyi, and Alexander D. Mirlin, "Theory of Free Fermions under Random Projective Measurements", Physical Review X 13 4, 041046 (2023).

[1625] Shuo Liu, Shi-Xin Zhang, Chang-Yu Hsieh, Shengyu Zhang, and Hong Yao, "Discrete Time Crystal Enabled by Stark Many-Body Localization", Physical Review Letters 130 12, 120403 (2023).

[1626] Ryuji Takagi, Hiroyasu Tajima, and Mile Gu, "Universal Sampling Lower Bounds for Quantum Error Mitigation", Physical Review Letters 131 21, 210602 (2023).

[1627] Nic Ezzell, Bibek Pokharel, Lina Tewala, Gregory Quiroz, and Daniel A. Lidar, "Dynamical decoupling for superconducting qubits: A performance survey", Physical Review Applied 20 6, 064027 (2023).

[1628] Yanwu Gu, Yunheng Ma, Nicolò Forcellini, and Dong E. Liu, "Noise-Resilient Phase Estimation with Randomized Compiling", Physical Review Letters 130 25, 250601 (2023).

[1629] Javier Gonzalez-Conde, Ángel Rodríguez-Rozas, Enrique Solano, and Mikel Sanz, "Efficient Hamiltonian simulation for solving option price dynamics", Physical Review Research 5 4, 043220 (2023).

[1630] Roland C. Farrell, Ivan A. Chernyshev, Sarah J. M. Powell, Nikita A. Zemlevskiy, Marc Illa, and Martin J. Savage, "Preparations for quantum simulations of quantum chromodynamics in 1 +1 dimensions. I. Axial gauge", Physical Review D 107 5, 054512 (2023).

[1631] Piotr Sierant and Xhek Turkeshi, "Controlling Entanglement at Absorbing State Phase Transitions in Random Circuits", Physical Review Letters 130 12, 120402 (2023).

[1632] Nathanan Tantivasadakarn, Ruben Verresen, and Ashvin Vishwanath, "Shortest Route to Non-Abelian Topological Order on a Quantum Processor", Physical Review Letters 131 6, 060405 (2023).

[1633] Daniel McNulty, Filip B. Maciejewski, and Michał Oszmaniec, "Estimating Quantum Hamiltonians via Joint Measurements of Noisy Noncommuting Observables", Physical Review Letters 130 10, 100801 (2023).

[1634] Refik Mansuroglu, Timo Eckstein, Ludwig Nützel, Samuel A. Wilkinson, and Michael J. Hartmann, "Variational Hamiltonian simulation for translational invariant systems via classical pre-processing", Quantum Science and Technology 8 2, 025006 (2023).

[1635] Shuo Liu, Shi-Xin Zhang, Shao-Kai Jian, and Hong Yao, "Training variational quantum algorithms with random gate activation", Physical Review Research 5 3, L032040 (2023).

[1636] Qiushi Liu, Zihao Hu, Haidong Yuan, and Yuxiang Yang, "Optimal Strategies of Quantum Metrology with a Strict Hierarchy", Physical Review Letters 130 7, 070803 (2023).

[1637] T. M. Graham, L. Phuttitarn, R. Chinnarasu, Y. Song, C. Poole, K. Jooya, J. Scott, A. Scott, P. Eichler, and M. Saffman, "Midcircuit Measurements on a Single-Species Neutral Alkali Atom Quantum Processor", Physical Review X 13 4, 041051 (2023).

[1638] Seyed Shakib Vedaie, Eduardo J. Páez, Nhung H. Nguyen, Norbert M. Linke, and Barry C. Sanders, "Bespoke pulse design for robust rapid two-qubit gates with trapped ions", Physical Review Research 5 2, 023098 (2023).

[1639] Max McGinley and Michele Fava, "Shadow Tomography from Emergent State Designs in Analog Quantum Simulators", Physical Review Letters 131 16, 160601 (2023).

[1640] Tanay Roy, Ziqian Li, Eliot Kapit, and DavidI. Schuster, "Two-Qutrit Quantum Algorithms on a Programmable Superconducting Processor", Physical Review Applied 19 6, 064024 (2023).

[1641] Zeqiao Zhou, Yuxuan Du, Xinmei Tian, and Dacheng Tao, "QAOA-in-QAOA: Solving Large-Scale MaxCut Problems on Small Quantum Machines", Physical Review Applied 19 2, 024027 (2023).

[1642] Y. F. Wang, W. P. Gao, K. Liu, B. Ji, Z. Wang, and Z. R. Lin, "Single-Flux-Quantum-Activated Controlled-Z Gate for Transmon Qubits", Physical Review Applied 19 4, 044031 (2023).

[1643] Guglielmo Lami and Mario Collura, "Nonstabilizerness via Perfect Pauli Sampling of Matrix Product States", Physical Review Letters 131 18, 180401 (2023).

[1644] Andy C. Y. Li, M. Sohaib Alam, Thomas Iadecola, Ammar Jahin, Joshua Job, Doga Murat Kurkcuoglu, Richard Li, Peter P. Orth, A. Barış Özgüler, Gabriel N. Perdue, and Norm M. Tubman, "Benchmarking variational quantum eigensolvers for the square-octagon-lattice Kitaev model", Physical Review Research 5 3, 033071 (2023).

[1645] Zi-Jian Zhang, Jinzhao Sun, Xiao Yuan, and Man-Hong Yung, "Low-Depth Hamiltonian Simulation by an Adaptive Product Formula", Physical Review Letters 130 4, 040601 (2023).

[1646] Qingyu Li, Chiranjib Mukhopadhyay, and Abolfazl Bayat, "Fermionic simulators for enhanced scalability of variational quantum simulation", Physical Review Research 5 4, 043175 (2023).

[1647] Josu Etxezarreta Martinez, Patricio Fuentes, Antonio deMarti iOlius, Javier Garcia-Frias, Javier Rodríguez Fonollosa, and Pedro M. Crespo, "Multiqubit time-varying quantum channels for NISQ-era superconducting quantum processors", Physical Review Research 5 3, 033055 (2023).

[1648] Bibek Pokharel and Daniel A. Lidar, "Demonstration of Algorithmic Quantum Speedup", Physical Review Letters 130 21, 210602 (2023).

[1649] Yun-Hao Shi, Yu Liu, Yu-Ran Zhang, Zhongcheng Xiang, Kaixuan Huang, Tao Liu, Yong-Yi Wang, Jia-Chi Zhang, Cheng-Lin Deng, Gui-Han Liang, Zheng-Yang Mei, Hao Li, Tian-Ming Li, Wei-Guo Ma, Hao-Tian Liu, Chi-Tong Chen, Tong Liu, Ye Tian, Xiaohui Song, S. P. Zhao, Kai Xu, Dongning Zheng, Franco Nori, and Heng Fan, "Quantum Simulation of Topological Zero Modes on a 41-Qubit Superconducting Processor", Physical Review Letters 131 8, 080401 (2023).

[1650] Daniel Jaschke and Simone Montangero, "Is quantum computing green? An estimate for an energy-efficiency quantum advantage", Quantum Science and Technology 8 2, 025001 (2023).

[1651] Jonas Richter, Oliver Lunt, and Arijeet Pal, "Transport and entanglement growth in long-range random Clifford circuits", Physical Review Research 5 1, L012031 (2023).

[1652] Elena Peña Tapia, Giannicola Scarpa, and Alejandro Pozas-Kerstjens, "A didactic approach to quantum machine learning with a single qubit", Physica Scripta 98 5, 054001 (2023).

[1653] Bruno Murta, Pedro M. Q. Cruz, and J. Fernández-Rossier, "Preparing valence-bond-solid states on noisy intermediate-scale quantum computers", Physical Review Research 5 1, 013190 (2023).

[1654] Torsten V. Zache, Daniel González-Cuadra, and Peter Zoller, "Quantum and Classical Spin-Network Algorithms for q -Deformed Kogut-Susskind Gauge Theories", Physical Review Letters 131 17, 171902 (2023).

[1655] Stanisław Kurdziałek, Wojciech Górecki, Francesco Albarelli, and Rafał Demkowicz-Dobrzański, "Using Adaptiveness and Causal Superpositions Against Noise in Quantum Metrology", Physical Review Letters 131 9, 090801 (2023).

[1656] Matteo Ippoliti, Yaodong Li, Tibor Rakovszky, and Vedika Khemani, "Operator Relaxation and the Optimal Depth of Classical Shadows", Physical Review Letters 130 23, 230403 (2023).

[1657] Arno Bargerbos, Lukas Johannes Splitthoff, Marta Pita-Vidal, Jaap J. Wesdorp, Yu Liu, Peter Krogstrup, Leo P. Kouwenhoven, Christian Kraglund Andersen, and Lukas Grünhaupt, "Mitigation of Quasiparticle Loss in Superconducting Qubits by Phonon Scattering", Physical Review Applied 19 2, 024014 (2023).

[1658] Martin Rymarz and David P. DiVincenzo, "Consistent Quantization of Nearly Singular Superconducting Circuits", Physical Review X 13 2, 021017 (2023).

[1659] Joanna W. Lis, Aruku Senoo, William F. McGrew, Felix Rönchen, Alec Jenkins, and Adam M. Kaufman, "Midcircuit Operations Using the omg Architecture in Neutral Atom Arrays", Physical Review X 13 4, 041035 (2023).

[1660] Erik Lötstedt, Lidong Wang, Ryuhei Yoshida, Youyuan Zhang, and Kaoru Yamanouchi, "Error-mitigated quantum computing of Heisenberg spin chain dynamics", Physica Scripta 98 3, 035111 (2023).

[1661] Zhong-Xia Shang, Ming-Cheng Chen, Xiao Yuan, Chao-Yang Lu, and Jian-Wei Pan, "Schrödinger-Heisenberg Variational Quantum Algorithms", Physical Review Letters 131 6, 060406 (2023).

[1662] Zeyuan Zhou, Ryan Sitler, Yasuo Oda, Kevin Schultz, and Gregory Quiroz, "Quantum Crosstalk Robust Quantum Control", Physical Review Letters 131 21, 210802 (2023).

[1663] Armin Khamoshi, Guo P. Chen, Francesco A. Evangelista, and Gustavo E. Scuseria, "AGP-based unitary coupled cluster theory for quantum computers", Quantum Science and Technology 8 1, 015006 (2023).

[1664] Pablo Díez-Valle, Jorge Luis-Hita, Senaida Hernández-Santana, Fernando Martínez-García, Álvaro Díaz-Fernández, Eva Andrés, Juan José García-Ripoll, Escolástico Sánchez-Martínez, and Diego Porras, "Multiobjective variational quantum optimization for constrained problems: an application to cash handling", Quantum Science and Technology 8 4, 045009 (2023).

[1665] Kaifeng Bu, Dax Enshan Koh, Lu Li, Qingxian Luo, and Yaobo Zhang, "Effects of quantum resources and noise on the statistical complexity of quantum circuits", Quantum Science and Technology 8 2, 025013 (2023).

[1666] Martin Lanthaler, Clemens Dlaska, Kilian Ender, and Wolfgang Lechner, "Rydberg-Blockade-Based Parity Quantum Optimization", Physical Review Letters 130 22, 220601 (2023).

[1667] Xuexin Xu and M. Ansari, "Parasitic-Free Gate: An Error-Protected Cross-Resonance Switch in Weakly Tunable Architectures", Physical Review Applied 19 2, 024057 (2023).

[1668] Pei Liu, Ruixia Wang, Jing-Ning Zhang, Yingshan Zhang, Xiaoxia Cai, Huikai Xu, Zhiyuan Li, Jiaxiu Han, Xuegang Li, Guangming Xue, Weiyang Liu, Li You, Yirong Jin, and Haifeng Yu, "Performing SU (d ) Operations and Rudimentary Algorithms in a Superconducting Transmon Qudit for d =3 and d =4", Physical Review X 13 2, 021028 (2023).

[1669] Shahnawaz Ahmed, Fernando Quijandría, and Anton Frisk Kockum, "Gradient-Descent Quantum Process Tomography by Learning Kraus Operators", Physical Review Letters 130 15, 150402 (2023).

[1670] Pablo Martinez-Azcona, Aritra Kundu, Adolfo del Campo, and Aurélia Chenu, "Stochastic Operator Variance: An Observable to Diagnose Noise and Scrambling", Physical Review Letters 131 16, 160202 (2023).

[1671] Chong Ying, Bin Cheng, Youwei Zhao, He-Liang Huang, Yu-Ning Zhang, Ming Gong, Yulin Wu, Shiyu Wang, Futian Liang, Jin Lin, Yu Xu, Hui Deng, Hao Rong, Cheng-Zhi Peng, Man-Hong Yung, Xiaobo Zhu, and Jian-Wei Pan, "Experimental Simulation of Larger Quantum Circuits with Fewer Superconducting Qubits", Physical Review Letters 130 11, 110601 (2023).

[1672] Siwei Huang, Yan Chang, Yusheng Lin, and Shibin Zhang, "Hybrid quantum-classical convolutional neural networks with privacy quantum computing", Quantum Science and Technology 8 2, 025015 (2023).

[1673] C. Tabares, A. Muñoz de las Heras, L. Tagliacozzo, D. Porras, and A. González-Tudela, "Variational Quantum Simulators Based on Waveguide QED", Physical Review Letters 131 7, 073602 (2023).

[1674] Marvin Bechtold, Johanna Barzen, Frank Leymann, Alexander Mandl, Julian Obst, Felix Truger, and Benjamin Weder, "Investigating the effect of circuit cutting in QAOA for the MaxCut problem on NISQ devices", Quantum Science and Technology 8 4, 045022 (2023).

[1675] Shota Kanasugi, Shoichiro Tsutsui, Yuya O. Nakagawa, Kazunori Maruyama, Hirotaka Oshima, and Shintaro Sato, "Computation of Green's function by local variational quantum compilation", Physical Review Research 5 3, 033070 (2023).

[1676] Jorge Miguel-Ramiro, Zheng Shi, Luca Dellantonio, Albie Chan, Christine A. Muschik, and Wolfgang Dür, "Superposed Quantum Error Mitigation", Physical Review Letters 131 23, 230601 (2023).

[1677] Liyun Zhang, Zhao Wang, Yucheng Wang, Junhua Zhang, Zhigang Wu, Jianwen Jie, and Yao Lu, "Quantum synchronization of a single trapped-ion qubit", Physical Review Research 5 3, 033209 (2023).

[1678] Manpreet Singh Jattana, Fengping Jin, Hans De Raedt, and Kristel Michielsen, "Improved Variational Quantum Eigensolver Via Quasidynamical Evolution", Physical Review Applied 19 2, 024047 (2023).

[1679] Ken N. Okada, Keita Osaki, Kosuke Mitarai, and Keisuke Fujii, "Classically optimized variational quantum eigensolver with applications to topological phases", Physical Review Research 5 4, 043217 (2023).

[1680] Kevin J. Sung, Marko J. Rančić, Olivia T. Lanes, and Nicholas T. Bronn, "Simulating Majorana zero modes on a noisy quantum processor", Quantum Science and Technology 8 2, 025010 (2023).

[1681] Lukas Heunisch, Christopher Eichler, and Michael J. Hartmann, "Tunable coupler to fully decouple and maximally localize superconducting qubits", Physical Review Applied 20 6, 064037 (2023).

[1682] Hongye Yu, Yusheng Zhao, and Tzu-Chieh Wei, "Simulating large-size quantum spin chains on cloud-based superconducting quantum computers", Physical Review Research 5 1, 013183 (2023).

[1683] Hasan Yetiş and Mehmet Karaköse, "Variational quantum circuits for convolution and window-based image processing applications", Quantum Science and Technology 8 4, 045004 (2023).

[1684] Niklas J. Glaser, Federico Roy, and Stefan Filipp, "Controlled-Controlled-Phase Gates for Superconducting Qubits Mediated by a Shared Tunable Coupler", Physical Review Applied 19 4, 044001 (2023).

[1685] Simone Cantori, David Vitali, and Sebastiano Pilati, "Supervised learning of random quantum circuits via scalable neural networks", Quantum Science and Technology 8 2, 025022 (2023).

[1686] Kosuke Ito, Wataru Mizukami, and Keisuke Fujii, "Universal noise-precision relations in variational quantum algorithms", Physical Review Research 5 2, 023025 (2023).

[1687] Yu-Hao Deng, Si-Qiu Gong, Yi-Chao Gu, Zhi-Jiong Zhang, Hua-Liang Liu, Hao Su, Hao-Yang Tang, Jia-Min Xu, Meng-Hao Jia, Ming-Cheng Chen, Han-Sen Zhong, Hui Wang, Jiarong Yan, Yi Hu, Jia Huang, Wei-Jun Zhang, Hao Li, Xiao Jiang, Lixing You, Zhen Wang, Li Li, Nai-Le Liu, Chao-Yang Lu, and Jian-Wei Pan, "Solving Graph Problems Using Gaussian Boson Sampling", Physical Review Letters 130 19, 190601 (2023).

[1688] Zidu Liu, Pei-Xin Shen, Weikang Li, L. -M. Duan, and Dong-Ling Deng, "Quantum capsule networks", Quantum Science and Technology 8 1, 015016 (2023).

[1689] Dario Picozzi and Jonathan Tennyson, "Symmetry-adapted encodings for qubit number reduction by point-group and other Boolean symmetries", Quantum Science and Technology 8 3, 035026 (2023).

[1690] Marcel Cech, Igor Lesanovsky, and Federico Carollo, "Thermodynamics of Quantum Trajectories on a Quantum Computer", Physical Review Letters 131 12, 120401 (2023).

[1691] Michele Grossi, Oriel Kiss, Francesco De Luca, Carlo Zollo, Ian Gremese, and Antonio Mandarino, "Finite-size criticality in fully connected spin models on superconducting quantum hardware", Physical Review E 107 2, 024113 (2023).

[1692] Yusen Wu, Zigeng Huang, Jinzhao Sun, Xiao Yuan, Jingbo B. Wang, and Dingshun Lv, "Orbital expansion variational quantum eigensolver", Quantum Science and Technology 8 4, 045030 (2023).

[1693] Joel Howard, Alexander Lidiak, Casey Jameson, Bora Basyildiz, Kyle Clark, Tongyu Zhao, Mustafa Bal, Junling Long, David P. Pappas, Meenakshi Singh, and Zhexuan Gong, "Implementing two-qubit gates at the quantum speed limit", Physical Review Research 5 4, 043194 (2023).

[1694] Akira Sone, Naoki Yamamoto, Tharon Holdsworth, and Prineha Narang, "Jarzynski-like equality of nonequilibrium information production based on quantum cross-entropy", Physical Review Research 5 2, 023039 (2023).

[1695] Giovanni Di Bartolomeo, Michele Vischi, Francesco Cesa, Roman Wixinger, Michele Grossi, Sandro Donadi, and Angelo Bassi, "Noisy gates for simulating quantum computers", Physical Review Research 5 4, 043210 (2023).

[1696] Jirawat Tangpanitanon, Supanut Thanasilp, Marc-Antoine Lemonde, Ninnat Dangniam, and Dimitris G. Angelakis, "Signatures of a sampling quantum advantage in driven quantum many-body systems", Quantum Science and Technology 8 2, 025019 (2023).

[1697] Alistair W. R. Smith, A. J. Paige, and M. S. Kim, "Faster variational quantum algorithms with quantum kernel-based surrogate models", Quantum Science and Technology 8 4, 045016 (2023).

[1698] Madhav Mohan, Robert de Keijzer, and Servaas Kokkelmans, "Robust control and optimal Rydberg states for neutral atom two-qubit gates", Physical Review Research 5 3, 033052 (2023).

[1699] Yunlong Xiao, Yuxiang Yang, Ximing Wang, Qing Liu, and Mile Gu, "Quantum Uncertainty Principles for Measurements with Interventions", Physical Review Letters 130 24, 240201 (2023).

[1700] Christian Carisch, Alessandro Romito, and Oded Zilberberg, "Quantifying measurement-induced quantum-to-classical crossover using an open-system entanglement measure", Physical Review Research 5 4, L042031 (2023).

[1701] Regina Finsterhoelzl and Guido Burkard, "Benchmarking quantum error-correcting codes on quasi-linear and central-spin processors", Quantum Science and Technology 8 1, 015013 (2023).

[1702] Yutaro Enomoto, Keitaro Anai, Kenta Udagawa, and Shuntaro Takeda, "Continuous-variable quantum approximate optimization on a programmable photonic quantum processor", Physical Review Research 5 4, 043005 (2023).

[1703] Klée Pollock, Peter P. Orth, and Thomas Iadecola, "Variational microcanonical estimator", Physical Review Research 5 3, 033224 (2023).

[1704] Xiao-Wei Wang, Wen-Hao Zhou, Yu-Xuan Fu, Jun Gao, Yong-Heng Lu, Yi-Jun Chang, Lu-Feng Qiao, Ruo-Jing Ren, Ze-Kun Jiang, Zhi-Qiang Jiao, Georgios M. Nikolopoulos, and Xian-Min Jin, "Experimental Boson Sampling Enabling Cryptographic One-Way Function", Physical Review Letters 130 6, 060802 (2023).

[1705] Weitang Li, Jiajun Ren, Sainan Huai, Tianqi Cai, Zhigang Shuai, and Shengyu Zhang, "Efficient quantum simulation of electron-phonon systems by variational basis state encoder", Physical Review Research 5 2, 023046 (2023).

[1706] Jason Gavriel, Daniel Herr, Alexis Shaw, Michael J. Bremner, Alexandru Paler, and Simon J. Devitt, "Transversal injection for direct encoding of ancilla states for non-Clifford gates using stabilizer codes", Physical Review Research 5 3, 033019 (2023).

[1707] Elias Zapusek, Alisa Javadi, and Florentin Reiter, "Nonunitary gate operations by dissipation engineering", Quantum Science and Technology 8 1, 015001 (2023).

[1708] Weiyuan Gong, Si Jiang, and Dong-Ling Deng, "No-go theorem and a universal decomposition strategy for quantum channel compilation", Physical Review Research 5 1, 013060 (2023).

[1709] Xin-Xin Yang, Liang-Liang Guo, Hai-Feng Zhang, Lei Du, Chi Zhang, Hao-Ran Tao, Yong Chen, Peng Duan, Zhi-Long Jia, Wei-Cheng Kong, and Guo-Ping Guo, "Experimental Implementation of Short-Path Nonadiabatic Geometric Gates in a Superconducting Circuit", Physical Review Applied 19 4, 044076 (2023).

[1710] Shuai Wang, Wenjun Zhang, Tao Zhang, Shuyao Mei, Yuqing Wang, Jiazhong Hu, and Wenlan Chen, "Accelerating the Assembly of Defect-Free Atomic Arrays with Maximum Parallelisms", Physical Review Applied 19 5, 054032 (2023).

[1711] Tian-Yu Yang, Yi-Xin Shen, Zhou-Kai Cao, and Xiang-Bin Wang, "Post-selection in noisy Gaussian boson sampling: part is better than whole", Quantum Science and Technology 8 4, 045020 (2023).

[1712] P. V. Sriluckshmy, Vicente Pina-Canelles, Mario Ponce, Manuel G. Algaba, IV Fedor Šimkovic, and Martin Leib, "Optimal, hardware native decomposition of parameterized multi-qubit Pauli gates", Quantum Science and Technology 8 4, 045029 (2023).

[1713] Marika Svensson, Martin Andersson, Mattias Grönkvist, Pontus Vikstâl, Devdatt Dubhashi, Giulia Ferrini, and Göran Johansson, "Hybrid Quantum-Classical Heuristic to Solve Large-Scale Integer Linear Programs", Physical Review Applied 20 3, 034062 (2023).

[1714] Tong Ning, Youlong Yang, and Zhenye Du, "Quantum algorithm for twin extreme learning machine", Physica Scripta 98 8, 085110 (2023).

[1715] Elijah Pelofske, "Mapping state transition susceptibility in quantum annealing", Physical Review Research 5 1, 013224 (2023).

[1716] Stanisław Kurdziałek and Rafał Demkowicz-Dobrzański, "Measurement Noise Susceptibility in Quantum Estimation", Physical Review Letters 130 16, 160802 (2023).

[1717] Philipp Pfeffer, Florian Heyder, and Jörg Schumacher, "Reduced-order modeling of two-dimensional turbulent Rayleigh-Bénard flow by hybrid quantum-classical reservoir computing", Physical Review Research 5 4, 043242 (2023).

[1718] A. Avkhadiev, P. E. Shanahan, and R. D. Young, "Strategies for quantum-optimized construction of interpolating operators in classical simulations of lattice quantum field theories", Physical Review D 107 5, 054507 (2023).

[1719] Gideon Lee, Connor T. Hann, Shruti Puri, S. M. Girvin, and Liang Jiang, "Error Suppression for Arbitrary-Size Black Box Quantum Operations", Physical Review Letters 131 19, 190601 (2023).

[1720] Alicia B. Magann, Sophia E. Economou, and Christian Arenz, "Randomized adaptive quantum state preparation", Physical Review Research 5 3, 033227 (2023).

[1721] Chenfeng Cao, Yunlong Yu, Zipeng Wu, Nic Shannon, Bei Zeng, and Robert Joynt, "Mitigating algorithmic errors in quantum optimization through energy extrapolation", Quantum Science and Technology 8 1, 015004 (2023).

[1722] Bujiao Wu, Xiaoyu He, Shuai Yang, Lifu Shou, Guojing Tian, Jialin Zhang, and Xiaoming Sun, "Optimization of CNOT circuits on limited-connectivity architecture", Physical Review Research 5 1, 013065 (2023).

[1723] Lu Wang, Zhao-Yun Chen, Feng-Yu Le, Zhi-Qian Yu, Cheng Xue, Xi-Ning Zhuang, Qing Yan, Yang Yang, Yu-Chun Wu, and Guo-Ping Guo, "A quantum feature selection framework via ground state preparation", Physica Scripta 98 11, 115121 (2023).

[1724] Zhaoqi Leng, Pranav Mundada, Saeed Ghadimi, and Andrew Houck, "Efficient Algorithms for High-Dimensional Quantum Optimal Control of a Transmon Qubit", Physical Review Applied 19 4, 044034 (2023).

[1725] Tomoyuki Kubota, Yudai Suzuki, Shumpei Kobayashi, Quoc Hoan Tran, Naoki Yamamoto, and Kohei Nakajima, "Temporal information processing induced by quantum noise", Physical Review Research 5 2, 023057 (2023).

[1726] Marko J. Rančić, "Noisy intermediate-scale quantum computing algorithm for solving an n -vertex MaxCut problem with log(n ) qubits", Physical Review Research 5 1, L012021 (2023).

[1727] Francisco Escudero, David Fernández-Fernández, Gabriel Jaumà, Guillermo F. Peñas, and Luciano Pereira, "Hardware-Efficient Entangled Measurements for Variational Quantum Algorithms", Physical Review Applied 20 3, 034044 (2023).

[1728] Yunlong Yu, Chenfeng Cao, Xiang-Bin Wang, Nic Shannon, and Robert Joynt, "Solution of SAT problems with the adaptive-bias quantum approximate optimization algorithm", Physical Review Research 5 2, 023147 (2023).

[1729] David Rodríguez Pérez, Paul Varosy, Ziqian Li, Tanay Roy, Eliot Kapit, and David Schuster, "Error-Divisible Two-Qubit Gates", Physical Review Applied 19 2, 024043 (2023).

[1730] Ya-Dong Wu, Yan Zhu, Ge Bai, Yuexuan Wang, and Giulio Chiribella, "Quantum Similarity Testing with Convolutional Neural Networks", Physical Review Letters 130 21, 210601 (2023).

[1731] Saahil Patel, Benjamin Collis, William Duong, Daniel Koch, Massimiliano Cutugno, Laura Wessing, and Paul Alsing, "Information loss and run time from practical application of quantum data compression", Physica Scripta 98 4, 045111 (2023).

[1732] Shih-Kai Chou, Jyh-Pin Chou, Alice Hu, Yuan-Chung Cheng, and Hsi-Sheng Goan, "Accurate harmonic vibrational frequencies for diatomic molecules via quantum computing", Physical Review Research 5 4, 043216 (2023).

[1733] Elijah Pelofske, Georg Hahn, and Hristo N. Djidjev, "Noise dynamics of quantum annealers: estimating the effective noise using idle qubits", Quantum Science and Technology 8 3, 035005 (2023).

[1734] Finn Lasse Buessen, Dvira Segal, and Ilia Khait, "Simulating time evolution on distributed quantum computers", Physical Review Research 5 2, L022003 (2023).

[1735] Stefano Martina, Stefano Gherardini, and Filippo Caruso, "Machine learning classification of non-Markovian noise disturbing quantum dynamics", Physica Scripta 98 3, 035104 (2023).

[1736] Tangyou Huang, Yongcheng Ding, Léonce Dupays, Yue Ban, Man-Hong Yung, Adolfo del Campo, and Xi Chen, "Time-optimal control of driven oscillators by variational circuit learning", Physical Review Research 5 2, 023173 (2023).

[1737] Edric Matwiejew, Jason Pye, and Jingbo B. Wang, "Quantum optimisation for continuous multivariable functions by a structured search", Quantum Science and Technology 8 4, 045013 (2023).

[1738] Ying Lu, Peng-Fei Zhou, Shao-Ming Fei, and Shi-Ju Ran, "Quantum compiling with a variational instruction set for accurate and fast quantum computing", Physical Review Research 5 2, 023096 (2023).

[1739] Yasuo Oda, Dennis Lucarelli, Kevin Schultz, B. David Clader, and Gregory Quiroz, "Optimally Band-Limited Noise Filtering for Single-Qubit Gates", Physical Review Applied 19 1, 014062 (2023).

[1740] Ruhan Wang, Philip Richerme, and Fan Chen, "A hybrid quantum-classical neural network for learning transferable visual representation", Quantum Science and Technology 8 4, 045021 (2023).

[1741] Nouman Butt, Patrick Draper, and Jiayu Shen, "Simulating dimensionally reduced 4D Yang-Mills theory on a quantum computer", Physical Review D 108 11, 114510 (2023).

[1742] Y. F. Zolotarev, I. A. Luchnikov, J. A. López-Saldívar, A. K. Fedorov, and E. O. Kiktenko, "Continuous Monitoring for Noisy Intermediate-Scale Quantum Processors", Physical Review Applied 19 1, 014027 (2023).

[1743] Denis Stanev, Nicolò Spagnolo, and Fabio Sciarrino, "Deterministic optimal quantum cloning via a quantum-optical neural network", Physical Review Research 5 1, 013139 (2023).

[1744] Conrad Strydom and Mark Tame, "Measurement-based interleaved randomised benchmarking using IBM processors", Physica Scripta 98 2, 025106 (2023).

[1745] Raphael César de Souza Pimenta and Anibal Thiago Bezerra, "Revisiting semiconductor bulk hamiltonians using quantum computers", Physica Scripta 98 4, 045804 (2023).

[1746] Yun-Hua Kuo and Hong-Bin Chen, "Adaptively partitioned analog quantum simulation on near-term quantum computers: The nonclassical free-induction decay of NV centers in diamond", Physical Review Research 5 4, 043139 (2023).

[1747] Carlos Bravo-Prieto, Ryan LaRose, M. Cerezo, Yigit Subasi, Lukasz Cincio, and Patrick J. Coles, "Variational Quantum Linear Solver", Quantum 7, 1188 (2023).

[1748] Tianqi Chen, Ruizhe Shen, Ching Hua Lee, and Bo Yang, "High-fidelity realization of the AKLT state on a NISQ-era quantum processor", SciPost Physics 15 4, 170 (2023).

[1749] Guido Burkard, Thaddeus D. Ladd, Andrew Pan, John M. Nichol, and Jason R. Petta, "Semiconductor spin qubits", Reviews of Modern Physics 95 2, 025003 (2023).

[1750] Michael P. Zaletel, Mikhail Lukin, Christopher Monroe, Chetan Nayak, Frank Wilczek, and Norman Y. Yao, "Colloquium: Quantum and classical discrete time crystals", Reviews of Modern Physics 95 3, 031001 (2023).

[1751] Shi-Xin Zhang, Jonathan Allcock, Zhou-Quan Wan, Shuo Liu, Jiace Sun, Hao Yu, Xing-Han Yang, Jiezhong Qiu, Zhaofeng Ye, Yu-Qin Chen, Chee-Kong Lee, Yi-Cong Zheng, Shao-Kai Jian, Hong Yao, Chang-Yu Hsieh, and Shengyu Zhang, "TensorCircuit: a Quantum Software Framework for the NISQ Era", Quantum 7, 912 (2023).

[1752] Enrique Cervero Martín, Kirill Plekhanov, and Michael Lubasch, "Barren plateaus in quantum tensor network optimization", Quantum 7, 974 (2023).

[1753] Shane P. Kelly, Ulrich Poschinger, Ferdinand Schmidt-Kaler, Matthew P. A. Fisher, and Jamir Marino, "Coherence requirements for quantum communication from hybrid circuit dynamics", SciPost Physics 15 6, 250 (2023).

[1754] He-Liang Huang, Xiao-Yue Xu, Chu Guo, Guojing Tian, Shi-Jie Wei, Xiaoming Sun, Wan-Su Bao, and Gui-Lu Long, "Near-term quantum computing techniques: Variational quantum algorithms, error mitigation, circuit compilation, benchmarking and classical simulation", Science China Physics, Mechanics, and Astronomy 66 5, 250302 (2023).

[1755] Connor M. Holland, Yukai Lu, and Lawrence W. Cheuk, "On-demand entanglement of molecules in a reconfigurable optical tweezer array", Science 382 6675, 1143 (2023).

[1756] Zhimin He, Xuefen Zhang, Chuangtao Chen, Zhiming Huang, Yan Zhou, and Haozhen Situ, "A GNN-based predictor for quantum architecture search", Quantum Information Processing 22 2, 128 (2023).

[1757] Irénée Frérot, Matteo Fadel, and Maciej Lewenstein, "Probing quantum correlations in many-body systems: a review of scalable methods", Reports on Progress in Physics 86 11, 114001 (2023).

[1758] Nicolas Heurtel, Andreas Fyrillas, Grégoire de Gliniasty, Raphaël Le Bihan, Sébastien Malherbe, Marceau Pailhas, Eric Bertasi, Boris Bourdoncle, Pierre-Emmanuel Emeriau, Rawad Mezher, Luka Music, Nadia Belabas, Benoît Valiron, Pascale Senellart, Shane Mansfield, and Jean Senellart, "Perceval: A Software Platform for Discrete Variable Photonic Quantum Computing", Quantum 7, 931 (2023).

[1759] Zohreh Davoudi, Alexander F. Shaw, and Jesse R. Stryker, "General quantum algorithms for Hamiltonian simulation with applications to a non-Abelian lattice gauge theory", Quantum 7, 1213 (2023).

[1760] Kouhei Nakaji, Suguru Endo, Yuichiro Matsuzaki, and Hideaki Hakoshima, "Measurement optimization of variational quantum simulation by classical shadow and derandomization", Quantum 7, 995 (2023).

[1761] Hiroki Sukeno and Takuya Okuda, "Measurement-based quantum simulation of Abelian lattice gauge theories", SciPost Physics 14 5, 129 (2023).

[1762] Han Qi, Lei Wang, Hongsheng Zhu, Abdullah Gani, and Changqing Gong, "The barren plateaus of quantum neural networks: review, taxonomy and trends", Quantum Information Processing 22 12, 435 (2023).

[1763] Yangzhi Li, Wen Liu, Maoduo Li, and Yugang Li, "Quantum circuit compilation for nearest-neighbor architecture based on reinforcement learning", Quantum Information Processing 22 8, 295 (2023).

[1764] Peng Lv, Shijie Wei, Hao-Nan Xie, and Guilu Long, "QCSH: A full quantum computer nuclear shell-model package", Science China Physics, Mechanics, and Astronomy 66 4, 240311 (2023).

[1765] Ariel Shlosberg, Andrew J. Jena, Priyanka Mukhopadhyay, Jan F. Haase, Felix Leditzky, and Luca Dellantonio, "Adaptive estimation of quantum observables", Quantum 7, 906 (2023).

[1766] Torsten V. Zache, Daniel González-Cuadra, and Peter Zoller, "Fermion-qudit quantum processors for simulating lattice gauge theories with matter", Quantum 7, 1140 (2023).

[1767] Siyi Yang, Naixu Guo, Miklos Santha, and Patrick Rebentrost, "Quantum Alphatron: quantum advantage for learning with kernels and noise", Quantum 7, 1174 (2023).

[1768] Alireza Zirak, "XIRAC-Q: a near-real-time quantum operating system scheduling structure based on Shannon information theorem", Quantum Information Processing 22 11, 403 (2023).

[1769] Xiaosi Xu and Ying Li, "Quantum-assisted Monte Carlo algorithms for fermions", Quantum 7, 1072 (2023).

[1770] Chufan Lyu, Xusheng Xu, Man-Hong Yung, and Abolfazl Bayat, "Symmetry enhanced variational quantum spin eigensolver", Quantum 7, 899 (2023).

[1771] Xi Wu, Qingyi Li, Zhiqiang Li, Donghan Yang, Hui Yang, Wenjie Pan, Marek Perkowski, and Xiaoyu Song, "Circuit optimization of Grover quantum search algorithm", Quantum Information Processing 22 1, 69 (2023).

[1772] Guillem Müller-Rigat, Anubhav Kumar Srivastava, Stanisław Kurdziałek, Grzegorz Rajchel-Mieldzioć, Maciej Lewenstein, and Irénée Frérot, "Certifying the quantum Fisher information from a given set of mean values: a semidefinite programming approach", Quantum 7, 1152 (2023).

[1773] Shraddha Mishra and Chi-Yi Tsai, "QSurfNet: a hybrid quantum convolutional neural network for surface defect recognition", Quantum Information Processing 22 5, 179 (2023).

[1774] Christian Ufrecht, Maniraman Periyasamy, Sebastian Rietsch, Daniel D. Scherer, Axel Plinge, and Christopher Mutschler, "Cutting multi-control quantum gates with ZX calculus", Quantum 7, 1147 (2023).

[1775] Jinglei Zhang, Ryan Ferguson, Stefan Kühn, Jan F. Haase, C. M. Wilson, Karl Jansen, and Christine A. Muschik, "Simulating gauge theories with variational quantum eigensolvers in superconducting microwave cavities", Quantum 7, 1148 (2023).

[1776] Israel F. Araujo, Daniel K. Park, Teresa B. Ludermir, Wilson R. Oliveira, Francesco Petruccione, and Adenilton J. da Silva, "Configurable sublinear circuits for quantum state preparation", Quantum Information Processing 22 2, 123 (2023).

[1777] Feng-Ming Liu, Can Wang, Ming-Cheng Chen, He Chen, Shao-Wei Li, Zhong-Xia Shang, Chong Ying, Jian-Wen Wang, Yong-Heng Huo, Cheng-Zhi Peng, Xiaobo Zhu, Chao-Yang Lu, and Jian-Wei Pan, "Quantum computer-aided design for advanced superconducting qubit: Plasmonium", Science Bulletin 68 15, 1625 (2023).

[1778] Hannah Lange, Matjaž Kebrič, Maximilian Buser, Ulrich Schollwöck, Fabian Grusdt, and Annabelle Bohrdt, "Adaptive Quantum State Tomography with Active Learning", Quantum 7, 1129 (2023).

[1779] Simon C. Marshall, Casper Gyurik, and Vedran Dunjko, "High Dimensional Quantum Machine Learning With Small Quantum Computers", Quantum 7, 1078 (2023).

[1780] Hiroshi Ohno, "Quantum Bayesian inference for parameter estimation using quantum generative model", Quantum Information Processing 22 1, 52 (2023).

[1781] Jesse Berwald, Nicholas Chancellor, and Raouf Dridi, "Understanding domain-wall encoding theoretically and experimentally", Philosophical Transactions of the Royal Society of London Series A 381 2241, 20210410 (2023).

[1782] Pascal Baßler, Matthias Zipper, Christopher Cedzich, Markus Heinrich, Patrick H. Huber, Michael Johanning, and Martin Kliesch, "Synthesis of and compilation with time-optimal multi-qubit gates", Quantum 7, 984 (2023).

[1783] Robert de Keijzer, Oliver Tse, and Servaas Kokkelmans, "Pulse based Variational Quantum Optimal Control for hybrid quantum computing", Quantum 7, 908 (2023).

[1784] Emilio Onorati, Tamara Kohler, and Toby S. Cubitt, "Fitting quantum noise models to tomography data", Quantum 7, 1197 (2023).

[1785] Elijah Pelofske, Georg Hahn, and Hristo N. Djidjev, "Solving larger maximum clique problems using parallel quantum annealing", Quantum Information Processing 22 5, 219 (2023).

[1786] Pavel Kos and Georgios Styliaris, "Circuits of space and time quantum channels", Quantum 7, 1020 (2023).

[1787] Nikita A. Nemkov, Evgeniy O. Kiktenko, Ilia A. Luchnikov, and Aleksey K. Fedorov, "Efficient variational synthesis of quantum circuits with coherent multi-start optimization", Quantum 7, 993 (2023).

[1788] Seonghoon Choi, Ignacio Loaiza, and Artur F. Izmaylov, "Fluid fermionic fragments for optimizing quantum measurements of electronic Hamiltonians in the variational quantum eigensolver", Quantum 7, 889 (2023).

[1789] Justyna P. Zwolak and Jacob M. Taylor, "Colloquium: Advances in automation of quantum dot devices control", Reviews of Modern Physics 95 1, 011006 (2023).

[1790] Xuanqiang Zhao, Benchi Zhao, Zihan Xia, and Xin Wang, "Information recoverability of noisy quantum states", Quantum 7, 978 (2023).

[1791] Fabian Kreppel, Christian Melzer, Diego Olvera Millán, Janis Wagner, Janine Hilder, Ulrich Poschinger, Ferdinand Schmidt-Kaler, and André Brinkmann, "Quantum Circuit Compiler for a Shuttling-Based Trapped-Ion Quantum Computer", Quantum 7, 1176 (2023).

[1792] Reuben Tate, Jai Moondra, Bryan Gard, Greg Mohler, and Swati Gupta, "Warm-Started QAOA with Custom Mixers Provably Converges and Computationally Beats Goemans-Williamson's Max-Cut at Low Circuit Depths", Quantum 7, 1121 (2023).

[1793] Bujiao Wu, Jinzhao Sun, Qi Huang, and Xiao Yuan, "Overlapped grouping measurement: A unified framework for measuring quantum states", Quantum 7, 896 (2023).

[1794] Jie Zhou, Dongfen Li, Yuqiao Tan, Xiaolong Yang, Yundan Zheng, and Xiaofang Liu, "A multi-classification classifier based on variational quantum computation", Quantum Information Processing 22 11, 412 (2023).

[1795] Cristina Cirstoiu, Silas Dilkes, Daniel Mills, Seyon Sivarajah, and Ross Duncan, "Volumetric Benchmarking of Error Mitigation with Qermit", Quantum 7, 1059 (2023).

[1796] U. Bhattacharya, Th Lamprou, A. S. Maxwell, A. Ordóñez, E. Pisanty, J. Rivera-Dean, P. Stammer, M. F. Ciappina, M. Lewenstein, and P. Tzallas, "Strong-laser-field physics, non-classical light states and quantum information science", Reports on Progress in Physics 86 9, 094401 (2023).

[1797] Kazuki Ikeda, "Quantum extensive-form games", Quantum Information Processing 22 1, 66 (2023).

[1798] Filipa C. R. Peres and Ernesto F. Galvão, "Quantum circuit compilation and hybrid computation using Pauli-based computation", Quantum 7, 1126 (2023).

[1799] V. O. Shkolnikov, Nicholas J. Mayhall, Sophia E. Economou, and Edwin Barnes, "Avoiding symmetry roadblocks and minimizing the measurement overhead of adaptive variational quantum eigensolvers", Quantum 7, 1040 (2023).

[1800] Ugo Nzongani, Julien Zylberman, Carlo-Elia Doncecchi, Armando Pérez, Fabrice Debbasch, and Pablo Arnault, "Quantum circuits for discrete-time quantum walks with position-dependent coin operator", Quantum Information Processing 22 7, 270 (2023).

[1801] Marco Ballarin, Stefano Mangini, Simone Montangero, Chiara Macchiavello, and Riccardo Mengoni, "Entanglement entropy production in Quantum Neural Networks", Quantum 7, 1023 (2023).

[1802] Jun-Yi Wu, Kosuke Matsui, Tim Forrer, Akihito Soeda, Pablo Andrés-Martínez, Daniel Mills, Luciana Henaut, and Mio Murao, "Entanglement-efficient bipartite-distributed quantum computing", Quantum 7, 1196 (2023).

[1803] Lorenzo Buffoni and Michele Campisi, "Cooperative quantum information erasure", Quantum 7, 961 (2023).

[1804] Gabriel Matos, Chris N. Self, Zlatko Papić, Konstantinos Meichanetzidis, and Henrik Dreyer, "Characterization of variational quantum algorithms using free fermions", Quantum 7, 966 (2023).

[1805] Casper Gyurik, van Vreumingen, and Vedran Dunjko, "Structural risk minimization for quantum linear classifiers", Quantum 7, 893 (2023).

[1806] Filip B. Maciejewski, Zbigniew Puchała, and Michał Oszmaniec, "Operational Quantum Average-Case Distances", Quantum 7, 1106 (2023).

[1807] S. Mahtab, P. Milas, D. -T. Veal, M. G. Spencer, and B. Ozturk, "High efficiency radio frequency antennas for amplifier free quantum sensing applications", Review of Scientific Instruments 94 4, 044701 (2023).

[1808] Juan Zurita, Charles E. Creffield, and Gloria Platero, "Fast quantum transfer mediated by topological domain walls", Quantum 7, 1043 (2023).

[1809] Patrik I. Sund, Emma Lomonte, Stefano Paesani, Ying Wang, Jacques Carolan, Nikolai Bart, Andreas D. Wieck, Arne Ludwig, Leonardo Midolo, Wolfram H. P. Pernice, Peter Lodahl, and Francesco Lenzini, "High-speed thin-film lithium niobate quantum processor driven by a solid-state quantum emitter", Science Advances 9 19, eadg7268 (2023).

[1810] Benedikt Fauseweh and Jian-Xin Zhu, "Quantum computing Floquet energy spectra", Quantum 7, 1063 (2023).

[1811] Soo-Cheol Oh and Gyu-Il Cha, "Logical qubit behavior model and fast simulation for surface code", Quantum Information Processing 22 7, 287 (2023).

[1812] Philip Taranto, Thomas J. Elliott, and Simon Milz, "Hidden Quantum Memory: Is Memory There When Somebody Looks?", Quantum 7, 991 (2023).

[1813] Erfan Abedi, Salman Beigi, and Leila Taghavi, "Quantum Lazy Training", Quantum 7, 989 (2023).

[1814] Kilian Ender, Roeland ter Hoeven, Benjamin E. Niehoff, Maike Drieb-Schön, and Wolfgang Lechner, "Parity Quantum Optimization: Compiler", Quantum 7, 950 (2023).

[1815] Aidan Pellow-Jarman, Ilya Sinayskiy, Anban Pillay, and Francesco Petruccione, "Near term algorithms for linear systems of equations", Quantum Information Processing 22 6, 258 (2023).

[1816] Bruno Senjean, Saad Yalouz, and Matthieu Saubanère, "Toward density functional theory on quantum computers?", SciPost Physics 14 3, 055 (2023).

[1817] Nirupam Basak, Nayana Das, Goutam Paul, Kaushik Nandi, and Nixon Patel, "Quantum secret sharing protocol using GHZ state: implementation on IBM qiskit", Quantum Information Processing 22 11, 393 (2023).

[1818] Ziwen Huang, Yunwei Lu, Anna Grassellino, Alexander Romanenko, Jens Koch, and Shaojiang Zhu, "Completely Positive Map for Noisy Driven Quantum Systems Derived by Keldysh Expansion", Quantum 7, 1158 (2023).

[1819] Fernando Gago-Encinas, Tobias Hartung, Daniel M. Reich, Karl Jansen, and Christiane P. Koch, "Determining the ability for universal quantum computing: Testing controllability via dimensional expressivity", Quantum 7, 1214 (2023).

[1820] Gilchan Park, Kun Zhang, Kwangmin Yu, and Vladimir Korepin, "Quantum multi-programming for Grover's search", Quantum Information Processing 22 1, 54 (2023).

[1821] Ebrahim Ghasemian, Abolhassan Razminia, and Habib Rostami, "Quantum machine learning based on continuous variable single-photon states: an elementary foundation for quantum neural networks", Quantum Information Processing 22 10, 378 (2023).

[1822] Francisco Orts, Remigijus Paulavičius, and Ernestas Filatovas, "Improving the implementation of quantum blockchain based on hypergraphs", Quantum Information Processing 22 9, 330 (2023).

[1823] Ingo Roth, Jadwiga Wilkens, Dominik Hangleiter, and Jens Eisert, "Semi-device-dependent blind quantum tomography", Quantum 7, 1053 (2023).

[1824] Davide Rattacaso, Gianluca Passarelli, and Procolo Lucignano, "High-accuracy Hamiltonian learning via delocalized quantum state evolutions", Quantum 7, 905 (2023).

[1825] Xiao Xiao, J. K. Freericks, and A. F. Kemper, "Robust measurement of wave function topology on NISQ quantum computers", Quantum 7, 987 (2023).

[1826] Christian Carisch and Oded Zilberberg, "Efficient separation of quantum from classical correlations for mixed states with a fixed charge", Quantum 7, 954 (2023).

[1827] Jongheon Lee, Yousung Kang, You-Seok Lee, Boheung Chung, and Dooho Choi, "MPMCT gate decomposition method reducing T-depth quickly in proportion to the number of work qubits", Quantum Information Processing 22 10, 381 (2023).

[1828] Wei Xia, Jie Zou, Xingze Qiu, Feng Chen, Bing Zhu, Chunhe Li, Dong-Ling Deng, and Xiaopeng Li, "Configured quantum reservoir computing for multi-task machine learning", Science Bulletin 68 20, 2321 (2023).

[1829] Harish J. Vallury, Michael A. Jones, Gregory A. L. White, Floyd M. Creevey, Charles D. Hill, and Lloyd C. L. Hollenberg, "Noise-robust ground state energy estimates from deep quantum circuits", Quantum 7, 1109 (2023).

[1830] Mingxia Huo and Ying Li, "Error-resilient Monte Carlo quantum simulation of imaginary time", Quantum 7, 916 (2023).

[1831] Xiaoqin Gao, Paul Appel, Nicolai Friis, Martin Ringbauer, and Marcus Huber, "On the role of entanglement in qudit-based circuit compression", Quantum 7, 1141 (2023).

[1832] Ryan Shaffer, Hang Ren, Emiliia Dyrenkova, Christopher G. Yale, Daniel S. Lobser, Ashlyn D. Burch, Matthew N. H. Chow, Melissa C. Revelle, Susan M. Clark, and Hartmut Häffner, "Sample-efficient verification of continuously-parameterized quantum gates for small quantum processors", Quantum 7, 997 (2023).

[1833] Oriel Kiss, Michele Grossi, and Alessandro Roggero, "Importance sampling for stochastic quantum simulations", Quantum 7, 977 (2023).

[1834] Victoria J. Wright and Ravi Kunjwal, "Contextuality in composite systems: the role of entanglement in the Kochen-Specker theorem", Quantum 7, 900 (2023).

[1835] Michael Fellner, Kilian Ender, Roeland ter Hoeven, and Wolfgang Lechner, "Parity Quantum Optimization: Benchmarks", Quantum 7, 952 (2023).

[1836] Pedro Ripper, Gustavo Amaral, and Guilherme Temporão, "Swap Test-based characterization of decoherence in universal quantum computers", Quantum Information Processing 22 5, 220 (2023).

[1837] Siyuan Niu and Aida Todri-Sanial, "Enabling Multi-programming Mechanism for Quantum Computing in the NISQ Era", Quantum 7, 925 (2023).

[1838] Allan Wing-Bocanegra and Salvador E. Venegas-Andraca, "Circuit implementation of discrete-time quantum walks via the shunt decomposition method", Quantum Information Processing 22 3, 146 (2023).

[1839] Jonathan Durandau, Janis Wagner, Frédéric Mailhot, Charles-Antoine Brunet, Ferdinand Schmidt-Kaler, Ulrich Poschinger, and Yves Bérubé-Lauzière, "Automated Generation of Shuttling Sequences for a Linear Segmented Ion Trap Quantum Computer", Quantum 7, 1175 (2023).

[1840] Rebecca Erbanni, Kishor Bharti, Leong-Chuan Kwek, and Dario Poletti, "NISQ algorithm for the matrix elements of a generic observable", SciPost Physics 15 4, 180 (2023).

[1841] Kübra Yeter-Aydeniz, Zachary Parks, Aadithya Nair Thekkiniyedath, Erik Gustafson, Alexander F. Kemper, Raphael C. Pooser, Yannick Meurice, and Patrick Dreher, "Measuring qubit stability in a gate-based NISQ hardware processor", Quantum Information Processing 22 2, 96 (2023).

[1842] Matt Menickelly, Yunsoo Ha, and Matthew Otten, "Latency considerations for stochastic optimizers in variational quantum algorithms", Quantum 7, 949 (2023).

[1843] Younghun Kim, Jeongsoo Kang, and Younghun Kwon, "Design of quantum error correcting code for biased error on heavy-hexagon structure", Quantum Information Processing 22 6, 230 (2023).

[1844] Phillip C. Lotshaw, Hanjing Xu, Bilal Khalid, Gilles Buchs, Travis S. Humble, and Arnab Banerjee, "Simulations of frustrated Ising Hamiltonians using quantum approximate optimization", Philosophical Transactions of the Royal Society of London Series A 381 2241, 20210414 (2023).

[1845] Yun-Fei Niu, Shuo Zhang, Chen Ding, Wan-Su Bao, and He-Liang Huang, "Parameter-parallel distributed variational quantum algorithm", SciPost Physics 14 5, 132 (2023).

[1846] Lieuwe Vinkhuijzen, Tim Coopmans, David Elkouss, Vedran Dunjko, and Alfons Laarman, "LIMDD: A Decision Diagram for Simulation of Quantum Computing Including Stabilizer States", Quantum 7, 1108 (2023).

[1847] Mazhar Ali, "Partial transpose moments, principal minors and entanglement detection", Quantum Information Processing 22 5, 207 (2023).

[1848] Haggai Landa and Grégoire Misguich, "Nonlocal correlations in noisy multiqubit systems simulated using matrix product operators", SciPost Physics Core 6 2, 037 (2023).

[1849] Yihua Wu, Chunhui Wu, Anqi Zhang, and Shengmei Zhao, "Domain adaptation based on hybrid classical-quantum neural network", Quantum Information Processing 22 6, 261 (2023).

[1850] Nicola Mariella and Sergiy Zhuk, "A doubly stochastic matrices-based approach to optimal qubit routing", Quantum Information Processing 22 7, 264 (2023).

[1851] André Melo, Nathan Earnest-Noble, and Francesco Tacchino, "Pulse-efficient quantum machine learning", Quantum 7, 1130 (2023).

[1852] Bharat Thotakura and Tzu-Chieh Wei, "Quantum state transfer: interplay between gate and readout errors", Quantum Information Processing 22 7, 275 (2023).

[1853] Alireza Nourmandipour and Ali Mortezapour, "Frequency-modulated qubits in a dissipative cavity: entanglement dynamics and protection", Quantum Information Processing 22 6, 254 (2023).

[1854] Piotr Dulian and Adam Sawicki, "Matrix concentration inequalities and efficiency of random universal sets of quantum gates", Quantum 7, 983 (2023).

[1855] Minghua Pan, Taiping Xiong, and Shenggen Zheng, "Performance of Grover's search algorithm with diagonalizable collective noises", Quantum Information Processing 22 6, 238 (2023).

[1856] Utkarsh Azad and Animesh Sinha, "qLEET: visualizing loss landscapes, expressibility, entangling power and training trajectories for parameterized quantum circuits", Quantum Information Processing 22 6, 256 (2023).

[1857] Masab Iqbal, Luis Velasco, Nelson Costa, Antonio Napoli, Joao Pedro, and Marc Ruiz, "Investigating Imperfect Cloning for Extending Quantum Communication Capabilities", Sensors 23 18, 7891 (2023).

[1858] Fernando A. Calderon-Vargas, Timothy Proctor, Kenneth Rudinger, and Mohan Sarovar, "Quantum circuit debugging and sensitivity analysis via local inversions", Quantum 7, 921 (2023).

[1859] Isaac D. Smith, Marius Krumm, Lukas J. Fiderer, Hendrik Poulsen Nautrup, and Hans J. Briegel, "The Min-Entropy of Classical-Quantum Combs for Measurement-Based Applications", Quantum 7, 1206 (2023).

[1860] Niels M. P. Neumann, Paolo B. U. L. de Heer, and Frank Phillipson, "Quantum reinforcement learning", Quantum Information Processing 22 2, 125 (2023).

[1861] Chen-Fu Chiang and Paul M. Alsing, "Grover search inspired alternating operator ansatz of quantum approximate optimization algorithm for search problems", Quantum Information Processing 22 5, 221 (2023).

[1862] Run-Hong He, Feng-Hua Ren, Yang-Yang Xie, Arapat Ablimit, and Zhao-Ming Wang, "Approximate quantum gates compilation for superconducting transmon qubits with self-navigation algorithm", Quantum Information Processing 22 10, 367 (2023).

[1863] Zijie Chen, Luyan Sun, and Chang-Ling Zou, "Entering the error-corrected quantum era", Science Bulletin 68 10, 961 (2023).

[1864] Alexander Geng, Ali Moghiseh, Claudia Redenbach, and Katja Schladitz, "Improved FRQI on superconducting processors and its restrictions in the NISQ era", Quantum Information Processing 22 2, 104 (2023).

[1865] Hiroshi Ohno, "A direct error correction method for quantum machine learning", Quantum Information Processing 22 2, 119 (2023).

[1866] Yao Tang, Tao Shang, and Jianwei Liu, "Dynamic full quantum one-way function based on quantum circuit mapping", Quantum Information Processing 22 8, 324 (2023).

[1867] F. J. Araujo Filho, R. F. Dutra, I. F. F. dos Santos, M. L. Lyra, G. M. A. Almeida, and F. A. B. F. de Moura, "Transfer of quantum states through a disordered channel with exponentially decaying couplings", Quantum Information Processing 22 9, 327 (2023).

[1868] Hideyuki Miyahara, Yiyou Chen, Vwani Roychowdhury, and Louis-Serge Bouchard, "Decoherence mitigation by embedding a logical qubit in a qudit", Quantum Information Processing 22 7, 278 (2023).

[1869] Jagat Ram, Dev Dutt, S. K. Dhiman, Bikash K. Behera, and Prasanta K. Panigrahi, "Entanglement concentration of multi-qubit entangled states: an IBM quantum experience", Quantum Studies: Mathematics and Foundations 10 3, 329 (2023).

[1870] Bowen Li, Ting Li, and Fei Li, "A design method for efficient variational quantum models based on specific Pauli axis", Quantum Information Processing 22 10, 387 (2023).

[1871] Ruimin Shang, Zhimin Wang, Shangshang Shi, Jiaxin Li, Yanan Li, and Yongjian Gu, "Algorithm for simulating ocean circulation on a quantum computer", Science China Earth Sciences 66 10, 2254 (2023).

[1872] Alexander M. Dalzell, Sam McArdle, Mario Berta, Przemyslaw Bienias, Chi-Fang Chen, András Gilyén, Connor T. Hann, Michael J. Kastoryano, Emil T. Khabiboulline, Aleksander Kubica, Grant Salton, Samson Wang, and Fernando G. S. L. Brandão, "Quantum algorithms: A survey of applications and end-to-end complexities", arXiv:2310.03011, (2023).

[1873] Thomas Brunet, Emma Tolley, Stefano Corda, Roman Ilic, P. Chris Broekema, and Jean-Paul Kneib, "Quantum Radio Astronomy: Data Encodings and Quantum Image Processing", arXiv:2310.12084, (2023).

[1874] T. Brunet, E. Tolley, S. Corda, R. Ilic, P. C. Broekema, and J. -P. Kneib, "Quantum radio astronomy: Data encodings and quantum image processing", Astronomy and Computing 47, 100796 (2024).

[1875] Tsubasa Ichikawa, Hideaki Hakoshima, Koji Inui, Kosuke Ito, Ryo Matsuda, Kosuke Mitarai, Koichi Miyamoto, Wataru Mizukami, Kaoru Mizuta, Toshio Mori, Yuichiro Nakano, Akimoto Nakayama, Ken N. Okada, Takanori Sugimoto, Souichi Takahira, Nayuta Takemori, Satoyuki Tsukano, Hiroshi Ueda, Ryo Watanabe, Yuichiro Yoshida, and Keisuke Fujii, "A comprehensive survey on quantum computer usage: How many qubits are employed for what purposes?", arXiv:2307.16130, (2023).

[1876] Harper R. Grimsley, George S. Barron, Edwin Barnes, Sophia E. Economou, and Nicholas J. Mayhall, "Adaptive, problem-tailored variational quantum eigensolver mitigates rough parameter landscapes and barren plateaus", npj Quantum Information 9, 19 (2023).

[1877] Pedro Maciel Xavier, Pedro Ripper, Tiago Andrade, Joaquim Dias Garcia, Nelson Maculan, and David E. Bernal Neira, "QUBO.jl: A Julia Ecosystem for Quadratic Unconstrained Binary Optimization", arXiv:2307.02577, (2023).

[1878] Nathan Keenan, Niall F. Robertson, Tara Murphy, Sergiy Zhuk, and John Goold, "Evidence of Kardar-Parisi-Zhang scaling on a digital quantum simulator", npj Quantum Information 9, 72 (2023).

[1879] N. Renaud, P. Rodríguez-Sánchez, J. Hidding, and P. Chris Broekema, "Quantum radio astronomy: Quantum linear solvers for redundant baseline calibration", Astronomy and Computing 47, 100803 (2024).

[1880] R. Au-Yeung, B. Camino, O. Rathore, and V. Kendon, "Quantum algorithms for scientific computing", arXiv:2312.14904, (2023).

[1881] David Jaz Myers, Hisham Sati, and Urs Schreiber, "Topological Quantum Gates in Homotopy Type Theory", Communications in Mathematical Physics 405 7, 172 (2024).

[1882] Ruochen Ma, "Exploring critical systems under measurements and decoherence via Keldysh field theory", arXiv:2304.08277, (2023).

[1883] Yuheng Guo and Mingpu Qin, "The Performance of VQE across a phase transition point in the $J_1$-$J_2$ model on kagome lattice", arXiv:2306.04851, (2023).

[1884] Yanan Li, Zhimin Wang, Rongbing Han, Shangshang Shi, Jiaxin Li, Ruimin Shang, Haiyong Zheng, Guoqiang Zhong, and Yongjian Gu, "Quantum Recurrent Neural Networks for Sequential Learning", arXiv:2302.03244, (2023).

[1885] Alessio Calzona and Matteo Carrega, "Multi-mode architectures for noise-resilient superconducting qubits", Superconductor Science Technology 36 2, 023001 (2023).

[1886] Liang-Hong Mo, Yao Zhou, Jia-Rui Sun, and Peng Ye, "Hyperfine Structure of Quantum Entanglement", arXiv:2311.01997, (2023).

[1887] Francesco Bernardini, Abhijit Chakraborty, and Carlos R. Ordóñez, "Quantum computing with trapped ions: a beginner's guide", European Journal of Physics 45 1, 013001 (2024).

[1888] Tzu-Ching Yen, Aadithya Ganeshram, and Artur F. Izmaylov, "Deterministic improvements of quantum measurements with grouping of compatible operators, non-local transformations, and covariance estimates", npj Quantum Information 9, 14 (2023).

[1889] Jingwei Wen, Zhiguo Huang, Dunbo Cai, and Ling Qian, "Enhancing the expressivity of quantum neural networks with residual connections", Communications Physics 7 1, 220 (2024).

[1890] Pere Mujal, Rodrigo Martínez-Peña, Gian Luca Giorgi, Miguel C. Soriano, and Roberta Zambrini, "Time-series quantum reservoir computing with weak and projective measurements", npj Quantum Information 9, 16 (2023).

[1891] Alexander Gresch and Martin Kliesch, "Guaranteed efficient energy estimation of quantum many-body Hamiltonians using ShadowGrouping", arXiv:2301.03385, (2023).

[1892] Laia Domingo, "Classical and quantum reservoir computing: development and applications in machine learning", arXiv:2310.07455, (2023).

[1893] Danylo Lykov, Jonathan Wurtz, Cody Poole, Mark Saffman, Tom Noel, and Yuri Alexeev, "Sampling frequency thresholds for the quantum advantage of the quantum approximate optimization algorithm", npj Quantum Information 9, 73 (2023).

[1894] Mohamed Hibat-Allah, Marta Mauri, Juan Carrasquilla, and Alejandro Perdomo-Ortiz, "A framework for demonstrating practical quantum advantage: comparing quantum against classical generative models", Communications Physics 7 1, 68 (2024).

[1895] Yuchen Guo and Shuo Yang, "Noise effects on purity and quantum entanglement in terms of physical implementability", npj Quantum Information 9, 11 (2023).

[1896] R. Au-Yeung, A. J. Williams, V. M. Kendon, and S. J. Lind, "Quantum algorithm for smoothed particle hydrodynamics", Computer Physics Communications 294, 108909 (2024).

[1897] Bernhard Jobst, Kevin Shen, Carlos A. Riofrío, Elvira Shishenina, and Frank Pollmann, "Efficient MPS representations and quantum circuits from the Fourier modes of classical image data", arXiv:2311.07666, (2023).

[1898] Edgar Andres Ruiz Guzman and Denis Lacroix, "Restoring symmetries in quantum computing using Classical Shadows", European Physical Journal A 60 5, 112 (2024).

[1899] Ivan Bardet, Ángela Capel, Li Gao, Angelo Lucia, David Pérez-García, and Cambyse Rouzé, "Entropy Decay for Davies Semigroups of a One Dimensional Quantum Lattice", Communications in Mathematical Physics 405 2, 42 (2024).

[1900] Takanori Nishi and Kaoru Yamanouchi, "Simulation of a spin-boson model by iterative optimization of a parametrized quantum circuit", AVS Quantum Science 6 2, 023801 (2024).

[1901] Raoul Heese, Thore Gerlach, Sascha Mücke, Sabine Müller, Matthias Jakobs, and Nico Piatkowski, "Explaining Quantum Circuits with Shapley Values: Towards Explainable Quantum Machine Learning", arXiv:2301.09138, (2023).

[1902] Teppei Suzuki, Takashi Hasebe, and Tsubasa Miyazaki, "Quantum support vector machines for classification and regression on a trapped-ion quantum computer", arXiv:2307.02091, (2023).

[1903] Stefano Mangini, "Variational quantum algorithms for machine learning: theory and applications", arXiv:2306.09984, (2023).

[1904] Changsu Cao, Jinzhao Sun, Xiao Yuan, Han-Shi Hu, Hung Q. Pham, and Dingshun Lv, "Ab initio quantum simulation of strongly correlated materials with quantum embedding", npj Computational Mathematics 9, 78 (2023).

[1905] Javier Sanchez-Rivero, Daniel Talaván, Jose Garcia-Alonso, Antonio Ruiz-Cortés, and Juan Manuel Murillo, "Automatic Generation of an Efficient Less-Than Oracle for Quantum Amplitude Amplification", arXiv:2303.07120, (2023).

[1906] Chen Qian, Wei-Feng Zhuang, Rui-Cheng Guo, Meng-Jun Hu, and Dong E. Liu, "Information scrambling and entanglement in quantum approximate optimization algorithm circuits", European Physical Journal Plus 139 1, 14 (2024).

[1907] Mathias Weiden, Ed Younis, Justin Kalloor, John Kubiatowicz, and Costin Iancu, "Improving Quantum Circuit Synthesis with Machine Learning", arXiv:2306.05622, (2023).

[1908] Zhongtian Dong, Marçal Comajoan Cara, Gopal Ramesh Dahale, Roy T. Forestano, Sergei Gleyzer, Daniel Justice, Kyoungchul Kong, Tom Magorsch, Konstantin T. Matchev, Katia Matcheva, and Eyup B. Unlu, "$\mathbb{Z}_2\times \mathbb{Z}_2$ Equivariant Quantum Neural Networks: Benchmarking against Classical Neural Networks", arXiv:2311.18744, (2023).

[1909] Ijaz Ahamed Mohammad, Matej Pivoluska, and Martin Plesch, "Resource-efficient utilization of quantum computers", arXiv:2305.08924, (2023).

[1910] Martin J. Savage, "Quantum Computing for Nuclear Physics", arXiv:2312.07617, (2023).

[1911] Andres Ruiz, "Symmetry breaking and restoration for many-body problems treated on quantum computers", arXiv:2310.17996, (2023).

[1912] Jun Qi, Chao-Han Huck Yang, Pin-Yu Chen, and Min-Hsiu Hsieh, "Theoretical error performance analysis for variational quantum circuit based functional regression", npj Quantum Information 9, 4 (2023).

[1913] Zhiding Liang, Jinglei Cheng, Zhixin Song, Hang Ren, Rui Yang, Kecheng Liu, Peter Kogge, Tongyang Li, Yongshan Ding, and Yiyu Shi, "Towards Advantages of Parameterized Quantum Pulses", arXiv:2304.09253, (2023).

[1914] Akel Hashim, Stefan Seritan, Timothy Proctor, Kenneth Rudinger, Noah Goss, Ravi K. Naik, John Mark Kreikebaum, David I. Santiago, and Irfan Siddiqi, "Benchmarking quantum logic operations relative to thresholds for fault tolerance", npj Quantum Information 9, 109 (2023).

[1915] Emily Wright and Rogério de Sousa, "Fast quantum gate design with deep reinforcement learning using real-time feedback on readout signals", arXiv:2305.01169, (2023).

[1916] Antares Chen, Neng Huang, and Kunal Marwaha, "Local algorithms and the failure of log-depth quantum advantage on sparse random CSPs", arXiv:2310.01563, (2023).

[1917] Qisheng Wang and Zhicheng Zhang, "Fast Quantum Algorithms for Trace Distance Estimation", arXiv:2301.06783, (2023).

[1918] Karen Wintersperger, Florian Dommert, Thomas Ehmer, Andrey Hoursanov, Johannes Klepsch, Wolfgang Mauerer, Georg Reuber, Thomas Strohm, Ming Yin, and Sebastian Luber, "Neutral Atom Quantum Computing Hardware: Performance and End-User Perspective", arXiv:2304.14360, (2023).

[1919] Wentao Chen, Shuaining Zhang, Jialiang Zhang, Xiaolu Su, Yao Lu, Kuan Zhang, Mu Qiao, Ying Li, Jing-Ning Zhang, and Kihwan Kim, "Error-mitigated quantum simulation of interacting fermions with trapped ions", npj Quantum Information 9, 122 (2023).

[1920] Shangshang Shi, Zhimin Wang, Jiaxin Li, Yanan Li, Ruimin Shang, Haiyong Zheng, Guoqiang Zhong, and Yongjian Gu, "A natural NISQ model of quantum self-attention mechanism", arXiv:2305.15680, (2023).

[1921] Michael Kölle, Jonas Maurer, Philipp Altmann, Leo Sünkel, Jonas Stein, and Claudia Linnhoff-Popien, "Disentangling Quantum and Classical Contributions in Hybrid Quantum Machine Learning Architectures", arXiv:2311.05559, (2023).

[1922] David A. Quiroga and Anastasios Kyrillidis, "Using non-convex optimization in quantum process tomography: Factored gradient descent is tough to beat", arXiv:2312.01311, (2023).

[1923] Carlos A. Riofrío, Oliver Mitevski, Caitlin Jones, Florian Krellner, Aleksandar Vučković, Joseph Doetsch, Johannes Klepsch, Thomas Ehmer, and Andre Luckow, "A performance characterization of quantum generative models", arXiv:2301.09363, (2023).

[1924] Alexander Zlokapa, Benjamin Villalonga, Sergio Boixo, and Daniel A. Lidar, "Boundaries of quantum supremacy via random circuit sampling", npj Quantum Information 9, 36 (2023).

[1925] Dayue Qin, Yanzhu Chen, and Ying Li, "Error statistics and scalability of quantum error mitigation formulas", npj Quantum Information 9, 35 (2023).

[1926] Felix Truger, Johanna Barzen, Marvin Bechtold, Martin Beisel, Frank Leymann, Alexander Mandl, and Vladimir Yussupov, "Warm-Starting and Quantum Computing: A Systematic Mapping Study", arXiv:2303.06133, (2023).

[1927] Javier Sanchez-Rivero, Daniel Talaván, Jose Garcia-Alonso, Antonio Ruiz-Cortés, and Juan Manuel Murillo, "Some Initial Guidelines for Building Reusable Quantum Oracles", arXiv:2303.14959, (2023).

[1928] Tahereh Abad, Yoni Schattner, Anton Frisk Kockum, and Göran Johansson, "Impact of decoherence on the fidelity of quantum gates leaving the computational subspace", arXiv:2302.13885, (2023).

[1929] Xiao-Yan Yang, Hai-Feng Zhang, Lei Du, Hao-Ran Tao, Liang-Liang Guo, Tian-Le Wang, Zhi-Long Jia, Wei-Cheng Kong, Zhao-Yun Chen, Peng Duan, and Guo-Ping Guo, "Fast, universal scheme for calibrating microwave crosstalk in superconducting circuits", Applied Physics Letters 125 4, 044001 (2024).

[1930] James Mills, Debasis Sadhukhan, and Elham Kashefi, "Simplifying errors by symmetry and randomisation", arXiv:2303.02712, (2023).

[1931] Elijah Pelofske, Andreas Bärtschi, Lukasz Cincio, John Golden, and Stephan Eidenbenz, "Scaling Whole-Chip QAOA for Higher-Order Ising Spin Glass Models on Heavy-Hex Graphs", arXiv:2312.00997, (2023).

[1932] Elijah Pelofske, Andreas Bärtschi, John Golden, and Stephan Eidenbenz, "High-Round QAOA for MAX $k$-SAT on Trapped Ion NISQ Devices", arXiv:2306.03238, (2023).

[1933] Daniel Strano, Benn Bollay, Aryan Blaauw, Nathan Shammah, William J. Zeng, and Andrea Mari, "Exact and approximate simulation of large quantum circuits on a single GPU", arXiv:2304.14969, (2023).

[1934] Suryansh Upadhyay, Rasit Onur Topaloglu, and Swaroop Ghosh, "Trustworthy Computing using Untrusted Cloud-Based Quantum Hardware", arXiv:2305.01826, (2023).

[1935] Emanuele Mendicelli, "Investigating how to simulate lattice gauge theories on a quantum computer", arXiv:2308.15421, (2023).

[1936] Zihao Li, Huangjun Zhu, and Masahito Hayashi, "Robust and efficient verification of graph states in blind measurement-based quantum computation", npj Quantum Information 9, 115 (2023).

[1937] Anthony M. Smaldone, Gregory W. Kyro, and Victor S. Batista, "Quantum Convolutional Neural Networks for Multi-Channel Supervised Learning", arXiv:2305.18961, (2023).

[1938] Chuanqi Xu, Ferhat Erata, and Jakub Szefer, "Classification of Quantum Computer Fault Injection Attacks", arXiv:2309.05478, (2023).

[1939] Alexander M. Dalzell, Nicholas Hunter-Jones, and Fernando G. S. L. Brandão, "Random Quantum Circuits Transform Local Noise into Global White Noise", Communications in Mathematical Physics 405 3, 78 (2024).

[1940] Ramin Ayanzadeh, Ahmad Mousavi, Narges Alavisamani, and Moinuddin Qureshi, "Enigma: Privacy-Preserving Execution of QAOA on Untrusted Quantum Computers", arXiv:2311.13546, (2023).

[1941] John F Kam, Haiyue Kang, Charles D Hill, Gary J Mooney, and Lloyd C L Hollenberg, "Generation and Preservation of Large Entangled States on Physical Quantum Devices", arXiv:2312.15170, (2023).

[1942] Mark-Oliver Wolf, Tom Ewen, and Ivica Turkalj, "Quantum Architecture Search for Quantum Monte Carlo Integration via Conditional Parameterized Circuits with Application to Finance", arXiv:2304.08793, (2023).

[1943] Andrew Litteken, Lennart Maximilian Seifert, Jason D. Chadwick, Natalia Nottingham, Tanay Roy, Ziqian Li, David Schuster, Frederic T. Chong, and Jonathan M. Baker, "Dancing the Quantum Waltz: Compiling Three-Qubit Gates on Four Level Architectures", arXiv:2303.14069, (2023).

[1944] Aaron Szasz, Ed Younis, and Wibe de Jong, "Numerical circuit synthesis and compilation for multi-state preparation", arXiv:2305.01816, (2023).

[1945] Pablo Díez-Valle, Diego Porras, and Juan José García-Ripoll, "Connection between single-layer Quantum Approximate Optimization Algorithm interferometry and thermal distributions sampling", arXiv:2310.09172, (2023).

[1946] Waldemir Cambiucci, Regina Melo Silveira, and Wilson Vicente Ruggiero, "Hypergraphic partitioning of quantum circuits for distributed quantum computing", arXiv:2301.05759, (2023).

[1947] Dimitrios Thanos, Tim Coopmans, and Alfons Laarman, "Fast equivalence checking of quantum circuits of Clifford gates", arXiv:2308.01206, (2023).

[1948] Zhiqian Xu, Yi Fan, Chu Guo, and Honghui Shang, "MPS-VQE: A variational quantum computational chemistry simulator with matrix product states", Computer Physics Communications 294, 108897 (2024).

[1949] Akshay Ajagekar and Fengqi You, "Molecular design with automated quantum computing-based deep learning and optimization", npj Computational Mathematics 9, 143 (2023).

[1950] Michael J. Bremner, Bin Cheng, and Zhengfeng Ji, "IQP Sampling and Verifiable Quantum Advantage: Stabilizer Scheme and Classical Security", arXiv:2308.07152, (2023).

[1951] Alexander Stehli, Jan David Brehm, Tim Wolz, Andre Schneider, Hannes Rotzinger, Martin Weides, and Alexey V. Ustinov, "Quantum emulation of the transient dynamics in the multistate Landau-Zener model", npj Quantum Information 9, 61 (2023).

[1952] Anette Messinger, Michael Fellner, and Wolfgang Lechner, "Constant Depth Code Deformations in the Parity Architecture", arXiv:2303.08602, (2023).

[1953] Mārtiņš Kālis, Andris Locāns, Rolands Šikovs, Hassan Naseri, and Andris Ambainis, "A hybrid quantum-classical approach for inference on restricted Boltzmann machines", arXiv:2304.12418, (2023).

[1954] Luogen Xu and James K. Freericks, "Efficient Application of the Factorized Form of the Unitary Coupled-Cluster Ansatz for the Variational Quantum Eigensolver Algorithm by Using Linear Combination of Unitaries", Symmetry 15 7, 1429 (2023).

[1955] Sonny Rappaport, Gaurav Gyawali, Tiago Sereno, and Michael J. Lawler, "Measurement-induced landscape transitions in hybrid variational quantum circuits", arXiv:2312.09135, (2023).

[1956] Yongchun Xu, Jie Yang, Zengtao Kuang, Qun Huang, Wei Huang, and Heng Hu, "Quantum computing enhanced distance-minimizing data-driven computational mechanics", Computer Methods in Applied Mechanics and Engineering 419, 116675 (2024).

[1957] Jin-Min Liang, Qiao-Qiao Lv, Zhi-Xi Wang, and Shao-Ming Fei, "Assisted quantum simulation of open quantum systems", iScience 26 4, 106306 (2023).

[1958] Takashi Tsuchimochi, Yoohee Ryo, Siu Chung Tsang, and Seiichiro L. Ten-no, "Multi-state quantum simulations via model-space quantum imaginary time evolution", npj Quantum Information 9, 113 (2023).

[1959] Ara Ghukasyan, Jack S. Baker, Oktay Goktas, Juan Carrasquilla, and Santosh Kumar Radha, "Quantum-Classical Multiple Kernel Learning", arXiv:2305.17707, (2023).

[1960] Gwonhak Lee, Dongkeun Lee, and Joonsuk Huh, "Sampling Error Analysis in Quantum Krylov Subspace Diagonalization", arXiv:2307.16279, (2023).

[1961] Ramin Ayanzadeh and Moinuddin Qureshi, "Skipper: Improving the Reach and Fidelity of Quantum Annealers by Skipping Long Chains", arXiv:2312.00264, (2023).

[1962] Finn Voichick, Leonidas Lampropoulos, and Robert Rand, "COGNAC: Circuit Optimization via Gradients and Noise-Aware Compilation", arXiv:2311.02769, (2023).

[1963] Srinjoy Ganguly, Sai Nandan Morapakula, and Luis Miguel Pozo Coronado, "Quantum Natural Language Processing based Sentiment Analysis using lambeq Toolkit", arXiv:2305.19383, (2023).

[1964] Niels Gleinig, Tobias Rohner, and Torsten Hoefler, "Approximate Reversible Circuits for NISQ-Era Quantum Computers", arXiv:2302.01066, (2023).

[1965] E. Wes Bethel, Mercy G. Amankwah, Jan Balewski, Roel Van Beeumen, Daan Camps, Daniel Huang, and Talita Perciano, "Quantum Computing and Visualization: A Disruptive Technological Change Ahead", arXiv:2310.04937, (2023).

[1966] Zhen Wen, Yihan Liu, Siwei Tan, Jieyi Chen, Minfeng Zhu, Dongming Han, Jianwei Yin, Mingliang Xu, and Wei Chen, "Quantivine: A Visualization Approach for Large-scale Quantum Circuit Representation and Analysis", arXiv:2307.08969, (2023).

[1967] Ankai Wang, Jixuan Zhang, and Shengli Zou, "A revised double-slit experiment to explore the mechanism of photon wavefunction collapse by numerical design", AIP Advances 14 5, 055029 (2024).

[1968] Selçuk Çakmak, Murat Kurt, and Azmi Gençten, "Quantum Fourier Transform-Based Arithmetic Logic Unit on a Quantum Processor", Annalen der Physik 536 4, 2300457 (2024).

[1969] Konrad Jałowiecki and Łukasz Pawela, "Omnisolver: An extensible interface to Ising spin-glass and QUBO solvers", SoftwareX 24, 101559 (2023).

[1970] Sitong Liu, Naphan Benchasattabuse, Darcy QC Morgan, Michal Hajdušek, Simon J. Devitt, and Rodney Van Meter, "A Substrate Scheduler for Compiling Arbitrary Fault-tolerant Graph States", arXiv:2306.03758, (2023).

[1971] Ge Bai and Iman Marvian, "Synthesis of Energy-Conserving Quantum Circuits with XY interaction", arXiv:2309.11051, (2023).

[1972] Elijah Pelofske, Andreas Bärtschi, and Stephan Eidenbenz, "Simulating Heavy-Hex Transverse Field Ising Model Magnetization Dynamics Using Programmable Quantum Annealers", arXiv:2311.01657, (2023).

[1973] Run-Sheng Zhao, Hong-Yang Ma, Tao Cheng, Shuang Wang, and Xing-Kui Fan, "Quantum generative adversarial networks based on a readout error mitigation method with fault tolerant mechanism", Chinese Physics B 33 4, 040304 (2024).

[1974] Suryansh Upadhyay and Swaroop Ghosh, "Obfuscating Quantum Hybrid-Classical Algorithms for Security and Privacy", arXiv:2305.02379, (2023).

[1975] Tomasz Śmierzchalski, Jakub Pawłowski, Artur Przybysz, Łukasz Pawela, Zbigniew Puchała, Mátyás Koniorczyk, Bartłomiej Gardas, Sebastian Deffner, and Krzysztof Domino, "Hybrid quantum-classical computation for automatic guided vehicles scheduling", arXiv:2309.03088, (2023).

[1976] Valter Uotila, "SQL2Circuits: Estimating Metrics for SQL Queries with a Quantum Natural Language Processing Method", arXiv:2306.08529, (2023).

[1977] Dev Gurung, Shiva Raj Pokhrel, and Gang Li, "Decentralized Quantum Federated Learning for Metaverse: Analysis, Design and Implementation", arXiv:2306.11297, (2023).

[1978] Emiliano Tolotti, Enrico Zardini, Enrico Blanzieri, and Davide Pastorello, "Ensembles of Quantum Classifiers", arXiv:2311.09750, (2023).

[1979] Ryan Kim, "Implementing a Hybrid Quantum-Classical Neural Network by Utilizing a Variational Quantum Circuit for Detection of Dementia", arXiv:2301.12505, (2023).

[1980] Jinyang Li, Qiang Guan, Dingwen Tao, and Weiwen Jiang, "Carbon Emissions of Quantum Circuit Simulation: More than You Would Think", arXiv:2307.05510, (2023).

[1981] Joao F. Doriguello, Debbie Lim, Chi Seng Pun, Patrick Rebentrost, and Tushar Vaidya, "Quantum Algorithms for the Pathwise Lasso", arXiv:2312.14141, (2023).

[1982] Hideki Okawa, "Charged particle reconstruction for future high energy colliders with Quantum Approximate Optimization Algorithm", arXiv:2310.10255, (2023).

[1983] Elena R. Henderson, Jessie M. Henderson, Aviraj Sinha, Eric C. Larson, and Mitchell A. Thornton, "Demonstration of a Hardware-Independent Toolkit for Automated Quantum Subcircuit Synthesis", arXiv:2309.01028, (2023).

[1984] Vicente Moret-Bonillo, Eduardo Mosqueira-Rey, Samuel Magaz-Romero, and Diego Alvarez-Estevez, "Hybrid Classic-Quantum Computing for Staging of Invasive Ductal Carcinoma of Breast", arXiv:2303.10142, (2023).

[1985] Timothe Presles, Cyrille Enderli, Gilles Burel, and El Houssain Baghious, "Phase-coded Radar Waveform Design with Quantum Annealing", arXiv:2305.17953, (2023).

[1986] Muhammad Kashif and Saif Al-Kuwari, "The Unified Effect of Data Encoding, Ansatz Expressibility and Entanglement on the Trainability of HQNNs", arXiv:2305.04504, (2023).

[1987] Shaolun Ruan, Zhiding Liang, Qiang Guan, Paul Griffin, Xiaolin Wen, Yanna Lin, and Yong Wang, "VIOLET: Visual Analytics for Explainable Quantum Neural Networks", arXiv:2312.15276, (2023).

[1988] Mainak Bhattacharyya and Ankur Raina, "Quantum Approximation Optimization Algorithm for the trellis based Viterbi decoding of classical error correcting codes", arXiv:2304.02292, (2023).

[1989] D. V. Babukhin, "Echo-evolution data generation for quantum error mitigation via neural networks", arXiv:2311.00487, (2023).

[1990] Joel D. Eaves, "Multielectron Dynamics in the Condensed Phase: Quantum Structure-Function Relationships", Annual Review of Physical Chemistry 75 1, 437 (2024).

[1991] Gabriel San Martin Silva and Enrique Lopez Droguett, "Quantum-Based Combinatorial Optimization for Optimal Sensor Placement in Civil Structures", arXiv:2305.08738, (2023).

[1992] Shuang Wang, Ke-Han Wang, Tao Cheng, Run-Sheng Zhao, Hong-Yang Ma, and Shuai Guo, "Design of a novel hybrid quantum deep neural network in INEQR images classification", Chinese Physics B 33 6, 060310 (2024).

[1993] Ufuk Korkmaz and Deniz Türkpençe, "Stabilization and Dissipative Information Transfer of a Superconducting Kerr-Cat Qubit", arXiv:2307.12298, (2023).

[1994] Ana Cruz, Alexandre Madeira, and LuÂ-Ã-s Soares Barbosa, "Paraconsistent Transition Systems", arXiv:2303.13254, (2023).

[1995] Willie Huang, "Analyses of the viability of automating the quantum circuit construction of Grover Oracle for executing wildcard searches on NISQ processors", arXiv:2303.08898, (2023).

[1996] Tao Cheng, Run-Sheng Zhao, Shuang Wang, Rui Wang, and Hong-Yang Ma, "Analysis of learnability of a novel hybrid quantum-classical convolutional neural network in image classification", Chinese Physics B 33 4, 040303 (2024).

[1997] Yu-Hsueh Chen and Tarun Grover, "Symmetry-Enforced Many-Body Separability Transitions", PRX Quantum 5 3, 030310 (2024).

[1998] Dolev Bluvstein, Simon J. Evered, Alexandra A. Geim, Sophie H. Li, Hengyun Zhou, Tom Manovitz, Sepehr Ebadi, Madelyn Cain, Marcin Kalinowski, Dominik Hangleiter, J. Pablo Bonilla Ataides, Nishad Maskara, Iris Cong, Xun Gao, Pedro Sales Rodriguez, Thomas Karolyshyn, Giulia Semeghini, Michael J. Gullans, Markus Greiner, Vladan Vuletić, and Mikhail D. Lukin, "Logical quantum processor based on reconfigurable atom arrays", Nature 626 7997, 58 (2024).

[1999] Róbert Trényi, Árpád Lukács, Paweł Horodecki, Ryszard Horodecki, Tamás Vértesi, and Géza Tóth, "Activation of metrologically useful genuine multipartite entanglement", New Journal of Physics 26 2, 023034 (2024).

[2000] Elisa Bäumer, Vinay Tripathi, Derek S. Wang, Patrick Rall, Edward H. Chen, Swarnadeep Majumder, Alireza Seif, and Zlatko K. Minev, "Efficient Long-Range Entanglement Using Dynamic Circuits", PRX Quantum 5 3, 030339 (2024).

[2001] Quynh T. Nguyen, Louis Schatzki, Paolo Braccia, Michael Ragone, Patrick J. Coles, Frédéric Sauvage, Martín Larocca, and M. Cerezo, "Theory for Equivariant Quantum Neural Networks", PRX Quantum 5 2, 020328 (2024).

[2002] Alberto Di Meglio, Karl Jansen, Ivano Tavernelli, Constantia Alexandrou, Srinivasan Arunachalam, Christian W. Bauer, Kerstin Borras, Stefano Carrazza, Arianna Crippa, Vincent Croft, Roland de Putter, Andrea Delgado, Vedran Dunjko, Daniel J. Egger, Elias Fernández-Combarro, Elina Fuchs, Lena Funcke, Daniel González-Cuadra, Michele Grossi, Jad C. Halimeh, Zoë Holmes, Stefan Kühn, Denis Lacroix, Randy Lewis, Donatella Lucchesi, Miriam Lucio Martinez, Federico Meloni, Antonio Mezzacapo, Simone Montangero, Lento Nagano, Vincent R. Pascuzzi, Voica Radescu, Enrique Rico Ortega, Alessandro Roggero, Julian Schuhmacher, Joao Seixas, Pietro Silvi, Panagiotis Spentzouris, Francesco Tacchino, Kristan Temme, Koji Terashi, Jordi Tura, Cenk Tüysüz, Sofia Vallecorsa, Uwe-Jens Wiese, Shinjae Yoo, and Jinglei Zhang, "Quantum Computing for High-Energy Physics: State of the Art and Challenges", PRX Quantum 5 3, 037001 (2024).

[2003] Han Zheng, Luk Yi Cheung, Nikunj Sangwan, Artem Kononov, Roy Haller, Joost Ridderbos, Carlo Ciaccia, Jann Hinnerk Ungerer, Ang Li, Erik P. A. M. Bakkers, Andreas Baumgartner, and Christian Schönenberger, "Coherent Control of a Few-Channel Hole Type Gatemon Qubit", Nano Letters 24 24, 7173 (2024).

[2004] Xhek Turkeshi and Piotr Sierant, "Hilbert Space Delocalization under Random Unitary Circuits", Entropy 26 6, 471 (2024).

[2005] Laura Clinton, Toby Cubitt, Brian Flynn, Filippo Maria Gambetta, Joel Klassen, Ashley Montanaro, Stephen Piddock, Raul A. Santos, and Evan Sheridan, "Towards near-term quantum simulation of materials", Nature Communications 15, 211 (2024).

[2006] Diego H. Useche, Oscar A. Bustos-Brinez, Joseph A. Gallego-Mejia, and Fabio A. González, "Quantum density estimation with density matrices: Application to quantum anomaly detection", Physical Review A 109 3, 032418 (2024).

[2007] Onno Huijgen, Luuk Coopmans, Peyman Najafi, Marcello Benedetti, and Hilbert J. Kappen, "Training quantum Boltzmann machines with the β-variational quantum eigensolver", Machine Learning: Science and Technology 5 2, 025017 (2024).

[2008] Alexandr Sedykh, Maninadh Podapaka, Asel Sagingalieva, Karan Pinto, Markus Pflitsch, and Alexey Melnikov, "Hybrid quantum physics-informed neural networks for simulating computational fluid dynamics in complex shapes", Machine Learning: Science and Technology 5 2, 025045 (2024).

[2009] Raffaele Santagati, Alan Aspuru-Guzik, Ryan Babbush, Matthias Degroote, Leticia González, Elica Kyoseva, Nikolaj Moll, Markus Oppel, Robert M. Parrish, Nicholas C. Rubin, Michael Streif, Christofer S. Tautermann, Horst Weiss, Nathan Wiebe, and Clemens Utschig-Utschig, "Drug design on quantum computers", Nature Physics 20 4, 549 (2024).

[2010] Hamza Jnane, Jonathan Steinberg, Zhenyu Cai, H. Chau Nguyen, and Bálint Koczor, "Quantum Error Mitigated Classical Shadows", PRX Quantum 5 1, 010324 (2024).

[2011] Yutaro Akahoshi, Kazunori Maruyama, Hirotaka Oshima, Shintaro Sato, and Keisuke Fujii, "Partially Fault-Tolerant Quantum Computing Architecture with Error-Corrected Clifford Gates and Space-Time Efficient Analog Rotations", PRX Quantum 5 1, 010337 (2024).

[2012] Benedikt Fauseweh, "Quantum many-body simulations on digital quantum computers: State-of-the-art and future challenges", Nature Communications 15, 2123 (2024).

[2013] Federica Maria Surace and Olexei Motrunich, "Robustness and Eventual Slow Decay of Bound States of Interacting Microwave Photons in the Google Quantum AI Experiment", PRX Quantum 5 1, 010317 (2024).

[2014] Amara Katabarwa, Katerina Gratsea, Athena Caesura, and Peter D. Johnson, "Early Fault-Tolerant Quantum Computing", PRX Quantum 5 2, 020101 (2024).

[2015] Jonathan Y. Huang, Rocky Y. Su, Wee Han Lim, MengKe Feng, Barnaby van Straaten, Brandon Severin, Will Gilbert, Nard Dumoulin Stuyck, Tuomo Tanttu, Santiago Serrano, Jesus D. Cifuentes, Ingvild Hansen, Amanda E. Seedhouse, Ensar Vahapoglu, Ross C. C. Leon, Nikolay V. Abrosimov, Hans-Joachim Pohl, Michael L. W. Thewalt, Fay E. Hudson, Christopher C. Escott, Natalia Ares, Stephen D. Bartlett, Andrea Morello, Andre Saraiva, Arne Laucht, Andrew S. Dzurak, and Chih Hwan Yang, "High-fidelity spin qubit operation and algorithmic initialization above 1 K", Nature 627 8005, 772 (2024).

[2016] Hans Hohenfeld, Dirk Heimann, Felix Wiebe, and Frank Kirchner, "Quantum Deep Reinforcement Learning for Robot Navigation Tasks", IEEE Access 12, 87217 (2024).

[2017] Hyeondo Oh and Daniel K. Park, "Quantum support vector data description for anomaly detection", Machine Learning: Science and Technology 5 3, 035052 (2024).

[2018] Samson Wang, Sam McArdle, and Mario Berta, "Qubit-Efficient Randomized Quantum Algorithms for Linear Algebra", PRX Quantum 5 2, 020324 (2024).

[2019] Cenk Tüysüz, Su Yeon Chang, Maria Demidik, Karl Jansen, Sofia Vallecorsa, and Michele Grossi, "Symmetry Breaking in Geometric Quantum Machine Learning in the Presence of Noise", PRX Quantum 5 3, 030314 (2024).

[2020] Bill Fefferman, Soumik Ghosh, Michael Gullans, Kohdai Kuroiwa, and Kunal Sharma, "Effect of Nonunital Noise on Random-Circuit Sampling", PRX Quantum 5 3, 030317 (2024).

[2021] Jun Wu, Hao Fu, Mingzheng Zhu, Haiyue Zhang, Wei Xie, and Xiang-Yang Li, "Quantum circuit autoencoder", Physical Review A 109 3, 032623 (2024).

[2022] Zhelun Zhang and Yi-Zhuang You, "Observing Schrödinger's cat with artificial intelligence: emergent classicality from information bottleneck", Machine Learning: Science and Technology 5 1, 015051 (2024).

[2023] Takuya Hatomura, "Shortcuts to adiabaticity: theoretical framework, relations between different methods, and versatile approximations", Journal of Physics B Atomic Molecular Physics 57 10, 102001 (2024).

[2024] Guoyao Li and Zhang-qi Yin, "Steady motional entanglement between two distant levitated nanoparticles", Optics Express 32 5, 7377 (2024).

[2025] Guglielmo Lami, Alessandro Santini, and Mario Collura, "Continuously monitored quantum systems beyond Lindblad dynamics", New Journal of Physics 26 2, 023041 (2024).

[2026] Ryotatsu Yanagimoto, Edwin Ng, Marc Jankowski, Rajveer Nehra, Timothy P. McKenna, Tatsuhiro Onodera, Logan G. Wright, Ryan Hamerly, Alireza Marandi, M. M. Fejer, and Hideo Mabuchi, "Mesoscopic ultrafast nonlinear optics—the emergence of multimode quantum non-Gaussian physics", Optica 11 7, 896 (2024).

[2027] Ronghang Chen, Zhou Guang, Cong Guo, Guanru Feng, and Shi-Yao Hou, "Pure quantum gradient descent algorithm and full quantum variational eigensolver", Frontiers of Physics 19 2, 21202 (2024).

[2028] Hayata Yamasaki and Masato Koashi, "Time-Efficient Constant-Space-Overhead Fault-Tolerant Quantum Computation", Nature Physics 20 2, 247 (2024).

[2029] Hyeongjun Jeon, Kyungmin Lee, Dongkyu Lee, Bongsang Kim, and Taehyun Kim, "Optimal qubit mapping search for encoding classical data into matrix product state representation with minimal loss", Physics Letters A 516, 129642 (2024).

[2030] Jesús Cobos, David F. Locher, Alejandro Bermudez, Markus Müller, and Enrique Rico, "Noise-Aware Variational Eigensolvers: A Dissipative Route for Lattice Gauge Theories", PRX Quantum 5 3, 030340 (2024).

[2031] Azar C. Nakhl, Thomas Quella, and Muhammad Usman, "Calibrating the role of entanglement in variational quantum circuits", Physical Review A 109 3, 032413 (2024).

[2032] Antón Makarov, Carlos Pérez-Herradón, Giacomo Franceschetto, Márcio M. Taddei, Eneko Osaba, Paloma del Barrio Cabello, Esther Villar-Rodriguez, and Izaskun Oregi, "Quantum Optimization Methods for Satellite Mission Planning", IEEE Access 12, 71808 (2024).

[2033] Julian Berberich, Daniel Fink, and Christian Holm, "Robustness of quantum algorithms against coherent control errors", Physical Review A 109 1, 012417 (2024).

[2034] Sanskriti Joshi and Sajjad Moazeni, "Scaling up Superconducting Quantum Computers With Cryogenic RF-Photonics", Journal of Lightwave Technology 42 1, 166 (2024).

[2035] Jonathan Foldager and Bálint Koczor, "Can shallow quantum circuits scramble local noise into global white noise?", Journal of Physics A Mathematical General 57 1, 015306 (2024).

[2036] Yue Ma and M. S. Kim, "Limitations of probabilistic error cancellation for open dynamics beyond sampling overhead", Physical Review A 109 1, 012431 (2024).

[2037] Yusuke Hama and Hirofumi Nishi, "Quantum error mitigation via quantum-noise-effect circuit groups", Scientific Reports 14, 6077 (2024).

[2038] Kyungmin Kim, Sumin Lim, Kyujin Shin, Gwonhak Lee, Yousung Jung, Woomin Kyoung, June-Koo Kevin Rhee, and Young Min Rhee, "Variational quantum eigensolver for closed-shell molecules with non-bosonic corrections", Physical Chemistry Chemical Physics (Incorporating Faraday Transactions) 26 10, 8390 (2024).

[2039] Jingzhong Yang, Zenghui Jiang, Frederik Benthin, Joscha Hanel, Tom Fandrich, Raphael Joos, Stephanie Bauer, Sascha Kolatschek, Ali Hreibi, Eddy Patrick Rugeramigabo, Michael Jetter, Simone Luca Portalupi, Michael Zopf, Peter Michler, Stefan Kück, and Fei Ding, "High-rate intercity quantum key distribution with a semiconductor single-photon source", Light: Science & Applications 13 1, 150 (2024).

[2040] Jonathon P. Misiewicz and Francesco A. Evangelista, "Implementation of the Projective Quantum Eigensolver on a Quantum Computer", Journal of Physical Chemistry A 128 11, 2220 (2024).

[2041] Friederike Butt, Sascha Heußen, Manuel Rispler, and Markus Müller, "Fault-Tolerant Code-Switching Protocols for Near-Term Quantum Processors", PRX Quantum 5 2, 020345 (2024).

[2042] Malte Schade, Cyrill Bösch, Václav Hapla, and Andreas Fichtner, "A quantum computing concept for 1-D elastic wave simulation with exponential speedup", Geophysical Journal International 238 1, 321 (2024).

[2043] Xu-Dan Xie, Zheng-Yuan Xue, and Dan-Bo Zhang, "Variational quantum algorithms for scanning the complex spectrum of non-Hermitian systems", Frontiers of Physics 19 4, 41202 (2024).

[2044] Aidan Pellow-Jarman, Shane McFarthing, Ilya Sinayskiy, Daniel K. Park, Anban Pillay, and Francesco Petruccione, "The effect of classical optimizers and Ansatz depth on QAOA performance in noisy devices", Scientific Reports 14, 16011 (2024).

[2045] Ya-Qi Ling, Jun-Hu Zhang, Li-Hua Zhang, Yan-Ran Li, and Hui-Lei Huang, "Image Classification Using Hybrid Classical-Quantum Neutral Networks", International Journal of Theoretical Physics 63 5, 125 (2024).

[2046] Ning Bao and Gavin S. Hartnett, "Twisty-puzzle-inspired approach to Clifford synthesis", Physical Review A 109 3, 032409 (2024).

[2047] C. F. Sun, X. Y. Chen, W. L. Mu, G. C. Wang, J. B. You, and X. Q. Shao, "Holonomic swap and controlled-swap gates of neutral atoms via selective Rydberg pumping", EPJ Quantum Technology 11 1, 34 (2024).

[2048] Shuocang Zhang, Yinjia Chen, and Qiang Shi, "Simulating the operation of a quantum computer in a dissipative environment", Journal of Chemical Physics 160 5, 054101 (2024).

[2049] Georgia Christopoulou, Cono Di Paola, Floris Eelke Elzinga, Aurelie Jallat, David Muñoz Ramo, and Michal Krompiec, "Quantum hardware calculations of the activation and dissociation of nitrogen on iron clusters and surfaces", Physical Chemistry Chemical Physics (Incorporating Faraday Transactions) 26 7, 5895 (2024).

[2050] Jan Balewski, Mercy G. Amankwah, Roel Van Beeumen, E. Wes Bethel, Talita Perciano, and Daan Camps, "Quantum-parallel vectorized data encodings and computations on trapped-ion and transmon QPUs", Scientific Reports 14, 3435 (2024).

[2051] A. Yu Chernyavskiy, B. I. Bantysh, and Yu I. Bogdanov, "Entropic property of randomized QAOA circuits", Laser Physics Letters 21 1, 015204 (2024).

[2052] Xiang Rao, "Performance study of variational quantum linear solver with an improved ansatz for reservoir flow equations", Physics of Fluids 36 4, 047104 (2024).

[2053] Jia-Jin Feng and Biao Wu, "Escaping local minima with quantum circuit coherent cooling", Physical Review A 109 3, 032405 (2024).

[2054] Jan Ole Ernst and Felix Tennie, "Mode entanglement in fermionic and bosonic Harmonium", New Journal of Physics 26 3, 033042 (2024).

[2055] Xinbiao Wang, Yuxuan Du, Zhuozhuo Tu, Yong Luo, Xiao Yuan, and Dacheng Tao, "Transition role of entangled data in quantum machine learning", Nature Communications 15, 3716 (2024).

[2056] Y. S. Teo, "Robustness of optimized numerical estimation schemes for noisy variational quantum algorithms", Physical Review A 109 1, 012620 (2024).

[2057] Antonio D'Arrigo, Giulia Piccitto, Giuseppe Falci, and Elisabetta Paladino, "Open-loop quantum control of small-size networks for high-order cumulants and cross-correlations sensing", Scientific Reports 14, 16681 (2024).

[2058] Alexis Ralli, Michael Williams de la Bastida, and Peter V. Coveney, "Scalable approach to quantum simulation via projection-based embedding", Physical Review A 109 2, 022418 (2024).

[2059] Muhammad AbuGhanem and Hichem Eleuch, "Full quantum tomography study of Google's Sycamore gate on IBM's quantum computers", EPJ Quantum Technology 11 1, 36 (2024).

[2060] Michael Fromm, Owe Philipsen, Wolfgang Unger, and Christopher Winterowd, "Quantum gate sets for lattice QCD in the strong-coupling limit: N<SUB>f</SUB>=1", EPJ Quantum Technology 11 1, 24 (2024).

[2061] Marco Minissale, Paolo Bondavalli, M. S. Figueira, and Guy Le Lay, "Sequencing one-dimensional Majorana materials for topological quantum computing", Journal of Physics: Materials 7 3, 031001 (2024).

[2062] G. V. Paradezhenko, A. A. Pervishko, and D. Yudin, "Probabilistic tensor optimization of quantum circuits for the max-k -cut problem", Physical Review A 109 1, 012436 (2024).

[2063] Jinghan Xu, Mengqi Fan, Zixuan Sun, Fei Liu, and Xiaoyan Liu, "Simulation study of trap-induced noise characteristics in FDSOI MOSFETs", Japanese Journal of Applied Physics 63 3, 03SP70 (2024).

[2064] Lin Chen and Zhaoxin Liang, "Noisy Demkov-Kunike model", Physical Review A 109 2, 022219 (2024).

[2065] B. Loer, P. M. Harrington, B. Archambault, E. Fuller, B. Pierson, I. J. Arnquist, K. Harouaka, T. D. Schlieder, D. K. Kim, A. J. Melville, B. M. Niedzielski, J. L. Yoder, K. Serniak, W. D. Oliver, J. L. Orrell, R. Bunker, B. A. VanDevender, and M. Warner, "Abatement of ionizing radiation for superconducting quantum devices", Journal of Instrumentation 19 9, P09001 (2024).

[2066] Jonathan A. Jones, "Controlling NMR spin systems for quantum computation", Progress in Nuclear Magnetic Resonance Spectroscopy 140-141, 49 (2024).

[2067] Shunsuke Daimon, Kakeru Tsunekawa, Ryoto Takeuchi, Takahiro Sagawa, Naoki Yamamoto, and Eiji Saitoh, "Quantum circuit distillation and compression", Japanese Journal of Applied Physics 63 3, 032003 (2024).

[2068] Anna Schroeder, Matthias Heller, and Mariami Gachechiladze, "Deterministic Ansätze for the measurement-based variational quantum eigensolver", New Journal of Physics 26 6, 063019 (2024).

[2069] Ken N. Okada, Hirofumi Nishi, Taichi Kosugi, and Yu-ichiro Matsushita, "Systematic study on the dependence of the warm-start quantum approximate optimization algorithm on approximate solutions", Scientific Reports 14, 1167 (2024).

[2070] Kyungmin Lee, Hyungjun Jeon, Dongkyu Lee, Bongsang Kim, Jeongho Bang, and Taehyun Kim, "Interpreting variational quantum models with active paths in parameterized quantum circuits", Machine Learning: Science and Technology 5 2, 025067 (2024).

[2071] Hargeet Kaur, Kavit Shah, Debabrata Swain, and Kaushal Shah, "Secret Information Sharing using Multipartite Entanglement in Monty Hall Game", Photonic Network Communications (2024).

[2072] Dean Brand, Ilya Sinayskiy, and Francesco Petruccione, "Markovian noise modelling and parameter extraction framework for quantum devices", Scientific Reports 14, 4769 (2024).

[2073] Mansoor A. Khan, Muhammad N. Aman, and Biplab Sikdar, "Beyond Bits: A Review of Quantum Embedding Techniques for Efficient Information Processing", IEEE Access 12, 46118 (2024).

[2074] Xiao-Le Li, Ziyu Tao, Kangyuan Yi, Kai Luo, Libo Zhang, Yuxuan Zhou, Song Liu, Tongxing Yan, Yuanzhen Chen, and Dapeng Yu, "Hardware-efficient and fast three-qubit gate in superconducting quantum circuits", Frontiers of Physics 19 5, 51205 (2024).

[2075] Junxu Li and Xingyu Gao, "Quantum circuit for high order perturbation theory corrections", Scientific Reports 14 1, 13963 (2024).

[2076] Yifu Zhang and Lei Ma, "Fast super robust nonadiabatic geometric quantum computation", Physics Letters A 521, 129794 (2024).

[2077] Akash Kundu, Ludmila Botelho, and Adam Glos, "Hamiltonian-oriented homotopy quantum approximate optimization algorithm", Physical Review A 109 2, 022611 (2024).

[2078] Timofey T. Sergeev, Alexander A. Zyablovsky, Evgeny S. Andrianov, and Yurii E. Lozovik, "Spontaneous breaking of time translation symmetry in a system without periodic external driving", Optics Letters 49 17, 4783 (2024).

[2079] Mikio Morita, Yoshinori Tomita, Junpei Koyama, and Koichi Kimura, "Simulator Demonstration of Large Scale Variational Quantum Algorithm on HPC Cluster", IEEE Access 12, 85219 (2024).

[2080] Marlon Brenes, Brett Min, Nicholas Anto-Sztrikacs, Nir Bar-Gill, and Dvira Segal, "Bath-induced interactions and transient dynamics in open quantum systems at strong coupling: Effective Hamiltonian approach", Journal of Chemical Physics 160 24, 244106 (2024).

[2081] Norhan Elsayed Amer, Walid Gomaa, Keiji Kimura, Kazunori Ueda, and Ahmed El-Mahdy, "On the optimality of quantum circuit initial mapping using reinforcement learning", EPJ Quantum Technology 11 1, 19 (2024).

[2082] Viki Kumar Prasad, Freeman Cheng, Ulrich Fekl, and Hans-Arno Jacobsen, "Applications of noisy quantum computing and quantum error mitigation to "adamantaneland": a benchmarking study for quantum chemistry", Physical Chemistry Chemical Physics (Incorporating Faraday Transactions) 26 5, 4071 (2024).

[2083] Eunmi Chae, Joonhee Choi, and Junki Kim, "An elementary review on basic principles and developments of qubits for quantum computing", Nano Convergence 11 1, 11 (2024).

[2084] G. Paradezhenko, A. Pervishko, and D. Yudin, "Quantum-Assisted Open-Pit Optimization", Soviet Journal of Experimental and Theoretical Physics Letters 119 6, 470 (2024).

[2085] Hirotoshi Hirai, "Practical application of quantum neural network to materials informatics", Scientific Reports 14, 8583 (2024).

[2086] Chao Zhang, Xuanran Zhu, and Bei Zeng, "Variational approach to unique determinedness in pure-state tomography", Physical Review A 109 2, 022425 (2024).

[2087] Javier Alcazar, Mohammad Ghazi Vakili, Can B. Kalayci, and Alejandro Perdomo-Ortiz, "Enhancing combinatorial optimization with classical and quantum generative models", Nature Communications 15, 2761 (2024).

[2088] Mikuláš Matoušek, Katarzyna Pernal, Fabijan Pavošević, and Libor Veis, "Variational Quantum Eigensolver Boosted by Adiabatic Connection", Journal of Physical Chemistry A 128 3, 687 (2024).

[2089] Denis A. Kulikov, Vsevolod I. Yashin, Aleksey K. Fedorov, and Evgeniy O. Kiktenko, "Minimizing the negativity of quantum circuits in overcomplete quasiprobability representations", Physical Review A 109 1, 012219 (2024).

[2090] C. Sanavio, R. Scatamacchia, C. de Falco, and S. Succi, "Three Carleman routes to the quantum simulation of classical fluids", Physics of Fluids 36 5, 057143 (2024).

[2091] Stanislav Filatov and Marcis Auzinsh, "Towards Two Bloch Sphere Representation of Pure Two-Qubit States and Unitaries", Entropy 26 4, 280 (2024).

[2092] Jie Liu, Zhenyu Li, and Jinlong Yang, "Perturbative variational quantum algorithms for material simulations", Electronic Structure 6 1, 015007 (2024).

[2093] Muhammad Ali Shafique, Arslan Munir, and Imran Latif, "Quantum Computing: Circuits, Algorithms, and Applications", IEEE Access 12, 22296 (2024).

[2094] Prasanna Date and Wyatt Smith, "Quantum discriminator for binary classification", Scientific Reports 14, 1328 (2024).

[2095] Wen Xu, Mao-Sheng Li, and Zhu-Jun Zheng, "Markovian semigroup from mixing generalized Weyl dephasing channels", Physical Review A 109 1, 012410 (2024).

[2096] Niels Fakkel, Mohsen Mortazavi, Ramon W. J. Overwater, Fabio Sebastiano, and Masoud Babaie, "A Cryo-CMOS DAC-Based 40-Gb/s PAM4 Wireline Transmitter for Quantum Computing", IEEE Journal of Solid-State Circuits 59 5, 1433 (2024).

[2097] Thomas J. Elliott and Mile Gu, "Embedding memory-efficient stochastic simulators as quantum trajectories", Physical Review A 109 2, 022434 (2024).

[2098] Fazal Raheman, "Defining Quantum Advantage for Building a Sustainable MVP to Deliver Quantum Computing Services", Open Journal of Applied Sciences 14 6, 1530 (2024).

[2099] Thomas Morstyn and Xiangyue Wang, "Opportunities for quantum computing within net-zero power system optimization", Joule 8 6, 1619 (2024).

[2100] Luis Fernando Pérez Armas, Stefan Creemers, and Samuel Deleplanque, "Solving the resource constrained project scheduling problem with quantum annealing", Scientific Reports 14, 16784 (2024).

[2101] Ijaz Ahamed Mohammad, Matej Pivoluska, and Martin Plesch, "Meta-optimization of resources on quantum computers", Scientific Reports 14, 10312 (2024).

[2102] Xiaodong Ding, Zhihui Song, Jinchen Xu, Yifan Hou, Tian Yang, and Zheng Shan, "Scalable parameterized quantum circuits classifier", Scientific Reports 14, 15886 (2024).

[2103] Albha O'Dwyer Boyle and Reza Nikandish, "A Hybrid Quantum-Classical Generative Adversarial Network for Near-Term Quantum Processors", IEEE Access 12, 102688 (2024).

[2104] XingAo Liu, Ri-Gui Zhou, WenYu Guo, XiaoRong You, and Jia Luo, "Quantum Algorithm for Classical Multidimensional Scaling", International Journal of Theoretical Physics 63 7, 162 (2024).

[2105] Junxu Li, "Iterative method to improve the precision of the quantum-phase-estimation algorithm", Physical Review A 109 3, 032606 (2024).

[2106] Rio Honda, Katsuhiro Endo, Taichi Kaji, Yudai Suzuki, Yoshiki Matsuda, Shu Tanaka, and Mayu Muramatsu, "Development of optimization method for truss structure by quantum annealing", Scientific Reports 14 1, 13872 (2024).

[2107] Martin J. Savage, "Quantum computing for nuclear physics", European Physical Journal Web of Conferences 296, 01025 (2024).

[2108] Yanqi Song, Jing Li, Yusen Wu, Sujuan Qin, Qiaoyan Wen, and Fei Gao, "A resource-efficient quantum convolutional neural network", Frontiers in Physics 12, 1362690 (2024).

[2109] Wen Liu, Yang-Zhi Li, Han-Wen Yin, Zhi-Rao Wang, and Jiang Wu, "Quantum multi-state Swap Test: an algorithm for estimating overlaps of arbitrary number quantum states", EPJ Quantum Technology 11 1, 46 (2024).

[2110] Muhammad AbuGhanem and Hichem Eleuch, "NISQ Computers: A Path to Quantum Supremacy", IEEE Access 12, 102941 (2024).

[2111] Anurag Dwivedi, Miguel Angel Lopez-Ruiz, and Srinivasan S. Iyengar, "Resource Optimization for Quantum Dynamics with Tensor Networks: Quantum and Classical Algorithms", Journal of Physical Chemistry A 128 32, 6774 (2024).

[2112] Esmot Ara Tuli, Jae-Min Lee, and Dong-Seong Kim, "Integration of Quantum Technologies into Metaverse: Applications, Potentials, and Challenges", IEEE Access 12, 29995 (2024).

[2113] Shehbaz Tariq, Ahmad Farooq, Junaid Ur Rehman, Trung Q. Duong, and Hyundong Shin, "Efficient quantum state estimation with low-rank matrix completion", EPJ Quantum Technology 11 1, 50 (2024).

[2114] Syed Masiur Rahman, Omar Hamad Alkhalaf, Md Shafiul Alam, Surya Prakash Tiwari, Md Shafiullah, Sarah Mohammed Al-Judaibi, and Fahad Saleh Al-Ismail, "Climate Change Through Quantum Lens: Computing and Machine Learning", Earth Systems and Environment (2024).

[2115] Hui Liu, Bingjie Zhang, Yu Zhu, Hanxiao Yang, and Bo Zhao, "QM-DLA: an efficient qubit mapping method based on dynamic look-ahead strategy", Scientific Reports 14, 13118 (2024).

[2116] Jie Liu, Huan Ma, Honghui Shang, Zhenyu Li, and Jinlong Yang, "Quantum-centric high performance computing for quantum chemistry", Physical Chemistry Chemical Physics (Incorporating Faraday Transactions) 26 22, 15831 (2024).

[2117] Jian Li and Chong-Qiang Ye, "Multi-party semi-quantum secret sharing protocol based on measure-flip and reflect operations", Laser Physics Letters 21 7, 075201 (2024).

[2118] Mohammed Yousif, Belal Al-Khateeb, and Begonya Garcia-Zapirain, "A New Quantum Circuits of Quantum Convolutional Neural Network for X-Ray Images Classification", IEEE Access 12, 65660 (2024).

[2119] Edoardo Pasetto, Morris Riedel, Kristel Michielsen, and Gabriele Cavallaro, "Kernel Approximation on a Quantum Annealer for Remote Sensing Regression Tasks", IEEE Journal of Selected Topics in Applied Earth Observations and Remote Sensing 17, 3262 (2024).

[2120] Jinyoung Ha, Jonghyun Lee, and Jun Heo, "Resource analysis and modifications of quantum computing with noisy qubits for elliptic curve discrete logarithms", Scientific Reports 14, 3927 (2024).

[2121] Sujit Kumar Singh, Deepesh Sharma, P. Srinivasan, and Abhisek Dixit, "Quantum-Dot-Based Thermometry Using 12-nm FinFET and Machine Learning Models", IEEE Transactions on Electron Devices 71 3, 2043 (2024).

[2122] Alexander Impertro, Simon Karch, Julian F. Wienand, SeungJung Huh, Christian Schweizer, Immanuel Bloch, and Monika Aidelsburger, "Local Readout and Control of Current and Kinetic Energy Operators in Optical Lattices", Physical Review Letters 133 6, 063401 (2024).

[2123] Hongzheng Zhao, Marin Bukov, Markus Heyl, and Roderich Moessner, "Adaptive Trotterization for Time-Dependent Hamiltonian Quantum Dynamics Using Piecewise Conservation Laws", Physical Review Letters 133 1, 010603 (2024).

[2124] Claire Chevallier, Joseph Vovrosh, Julius de Hond, Mario Dagrada, Alexandre Dauphin, and Vincent E. Elfving, "Variational protocols for emulating digital gates using analog control with always-on interactions", Physical Review A 109 6, 062604 (2024).

[2125] Kaixiang Su, Nayan Myerson-Jain, Chong Wang, Chao-Ming Jian, and Cenke Xu, "Higher-Form Symmetries under Weak Measurement", Physical Review Letters 132 20, 200402 (2024).

[2126] Indrajit Sau, Paolo Stornati, Debasish Banerjee, and Arnab Sen, "Sublattice scars and beyond in two-dimensional U (1 ) quantum link lattice gauge theories", Physical Review D 109 3, 034519 (2024).

[2127] Roland C. Farrell, Marc Illa, Anthony N. Ciavarella, and Martin J. Savage, "Quantum simulations of hadron dynamics in the Schwinger model using 112 qubits", Physical Review D 109 11, 114510 (2024).

[2128] Baptiste Anselme Martin, Thomas Ayral, François Jamet, Marko J. Rančić, and Pascal Simon, "Combining matrix product states and noisy quantum computers for quantum simulation", Physical Review A 109 6, 062437 (2024).

[2129] Lukas Mouton, Florentin Reiter, Ying Chen, and Patrick Rebentrost, "Deep-learning-based quantum algorithms for solving nonlinear partial differential equations", Physical Review A 110 2, 022612 (2024).

[2130] Yaodong Li, Romain Vasseur, Matthew P. A. Fisher, and Andreas W. W. Ludwig, "Statistical mechanics model for Clifford random tensor networks and monitored quantum circuits", Physical Review B 109 17, 174307 (2024).

[2131] Uliana E. Khodaeva, Dmitry L. Kovrizhin, and Johannes Knolle, "Quantum simulation of the one-dimensional Fermi-Hubbard model as a Z<SUB>2</SUB> lattice-gauge theory", Physical Review Research 6 1, 013032 (2024).

[2132] Tatsuhiko Shirai and Takashi Mori, "Accelerated Decay due to Operator Spreading in Bulk-Dissipated Quantum Systems", Physical Review Letters 133 4, 040201 (2024).

[2133] Yuxuan Guo and Yuto Ashida, "Two-dimensional symmetry-protected topological phases and transitions in open quantum systems", Physical Review B 109 19, 195420 (2024).

[2134] Hiroki Sukeno and Tzu-Chieh Wei, "Quantum simulation of lattice gauge theories via deterministic duality transformations assisted by measurements", Physical Review A 109 4, 042611 (2024).

[2135] Kaitlin Gili, Marta Mauri, and Alejandro Perdomo-Ortiz, "Generalization metrics for practical quantum advantage in generative models", Physical Review Applied 21 4, 044032 (2024).

[2136] Hao-Kai Zhang, Shuo Liu, and Shi-Xin Zhang, "Absence of Barren Plateaus in Finite Local-Depth Circuits with Long-Range Entanglement", Physical Review Letters 132 15, 150603 (2024).

[2137] Maurits S. J. Tepaske, David J. Luitz, and Dominik Hahn, "Optimal compression of constrained quantum time evolution", Physical Review B 109 20, 205134 (2024).

[2138] Ken M. Nakanishi, Takahiko Satoh, and Synge Todo, "Decompositions of multiple controlled-Z gates on various qubit-coupling graphs", Physical Review A 110 1, 012604 (2024).

[2139] Takaaki Aoki, Taro Kanao, Hayato Goto, Shiro Kawabata, and Shumpei Masuda, "Control of the Z Z coupling between Kerr cat qubits via transmon couplers", Physical Review Applied 21 1, 014030 (2024).

[2140] Xhek Turkeshi and Piotr Sierant, "Error-Resilience Phase Transitions in Encoding-Decoding Quantum Circuits", Physical Review Letters 132 14, 140401 (2024).

[2141] Riccardo J. Valencia-Tortora, Nicola Pancotti, Michael Fleischhauer, Hannes Bernien, and Jamir Marino, "Rydberg Platform for Nonergodic Chiral Quantum Dynamics", Physical Review Letters 132 22, 223201 (2024).

[2142] Dongheng Qian and Jing Wang, "Steering-induced phase transition in measurement-only quantum circuits", Physical Review B 109 2, 024301 (2024).

[2143] Hao Chen, Yu-Min Hu, Wucheng Zhang, Michael Alexander Kurniawan, Yuelin Shao, Xueqi Chen, Abhinav Prem, and Xi Dai, "Periodically driven open quantum systems: Spectral properties and nonequilibrium steady states", Physical Review B 109 18, 184309 (2024).

[2144] Qisheng Wang and Zhicheng Zhang, "Tight quantum depth lower bound for solving systems of linear equations", Physical Review A 110 1, 012422 (2024).

[2145] Abhijat Sarma, Thomas W. Watts, Mudassir Moosa, Yilian Liu, and Peter L. McMahon, "Quantum variational solving of nonlinear and multidimensional partial differential equations", Physical Review A 109 6, 062616 (2024).

[2146] Florian Ginzel, Michael Fellner, Christian Ertler, Lars R. Schreiber, Hendrik Bluhm, and Wolfgang Lechner, "Scalable parity architecture with a shuttling-based spin qubit processor", Physical Review B 110 7, 075302 (2024).

[2147] Yong Liu, Yaojian Chen, Chu Guo, Jiawei Song, Xinmin Shi, Lin Gan, Wenzhao Wu, Wei Wu, Haohuan Fu, Xin Liu, Dexun Chen, Zhifeng Zhao, Guangwen Yang, and Jiangang Gao, "Verifying Quantum Advantage Experiments with Multiple Amplitude Tensor Network Contraction", Physical Review Letters 132 3, 030601 (2024).

[2148] Federico Roccati, Federico Balducci, Ruth Shir, and Aurélia Chenu, "Diagnosing non-Hermitian many-body localization and quantum chaos via singular value decomposition", Physical Review B 109 14, L140201 (2024).

[2149] Tak Hur, Israel F. Araujo, and Daniel K. Park, "Neural quantum embedding: Pushing the limits of quantum supervised learning", Physical Review A 110 2, 022411 (2024).

[2150] Gonzalo Martín-Vázquez, Taneli Tolppanen, and Matti Silveri, "Phase transitions induced by standard and feedback measurements in transmon arrays", Physical Review B 109 21, 214308 (2024).

[2151] Lukas Broers and Ludwig Mathey, "Mitigated barren plateaus in the time-nonlocal optimization of analog quantum-algorithm protocols", Physical Review Research 6 1, 013076 (2024).

[2152] Nir Gutman, Alexey Gorlach, Offek Tziperman, Ron Ruimy, and Ido Kaminer, "Universal Control of Symmetric States Using Spin Squeezing", Physical Review Letters 132 15, 153601 (2024).

[2153] Pablo M. Poggi, Gabriele De Chiara, Steve Campbell, and Anthony Kiely, "Universally Robust Quantum Control", Physical Review Letters 132 19, 193801 (2024).

[2154] Elmer V. H. Doggen, Igor V. Gornyi, and Alexander D. Mirlin, "Ancilla quantum measurements on interacting chains: Sensitivity of entanglement dynamics to the type and concentration of detectors", Physical Review B 109 22, 224203 (2024).

[2155] Yaswitha Gujju, Atsushi Matsuo, and Rudy Raymond, "Quantum machine learning on near-term quantum devices: Current state of supervised and unsupervised techniques for real-world applications", Physical Review Applied 21 6, 067001 (2024).

[2156] Jannes Nys, Zakari Denis, and Giuseppe Carleo, "Real-time quantum dynamics of thermal states with neural thermofields", Physical Review B 109 23, 235120 (2024).

[2157] Miguel Mercado, Kyle Chen, Parth Hemant Darekar, Aiichiro Nakano, Rosa Di Felice, and Stephan Haas, "Dynamics of symmetry-protected topological matter on a quantum computer", Physical Review B 110 7, 075116 (2024).

[2158] Yagnik Chatterjee, Eric Bourreau, and Marko J. Rančić, "Solving various NP-hard problems using exponentially fewer qubits on a quantum computer", Physical Review A 109 5, 052441 (2024).

[2159] Kan Takase, Fumiya Hanamura, Hironari Nagayoshi, J. Eli Bourassa, Rafael N. Alexander, Akito Kawasaki, Warit Asavanant, Mamoru Endo, and Akira Furusawa, "Generation of flying logical qubits using generalized photon subtraction with adaptive Gaussian operations", Physical Review A 110 1, 012436 (2024).

[2160] Jiaqi Miao, Chang-Yu Hsieh, and Shi-Xin Zhang, "Neural-network-encoded variational quantum algorithms", Physical Review Applied 21 1, 014053 (2024).

[2161] Patrik I. Sund, Ravitej Uppu, Stefano Paesani, and Peter Lodahl, "Hardware requirements for realizing a quantum advantage with deterministic single-photon sources", Physical Review A 109 4, 042613 (2024).

[2162] Xin Wang, Bo Qi, Yabo Wang, and Daoyi Dong, "Entanglement-variational hardware-efficient ansatz for eigensolvers", Physical Review Applied 21 3, 034059 (2024).

[2163] Shi-Xin Zhang and Shuai Yin, "Universal imaginary-time critical dynamics on a quantum computer", Physical Review B 109 13, 134309 (2024).

[2164] Albie Chan, Zheng Shi, Luca Dellantonio, Wolfgang Dür, and Christine A. Muschik, "Measurement-Based Infused Circuits for Variational Quantum Eigensolvers", Physical Review Letters 132 24, 240601 (2024).

[2165] Ting Zhang, Yukun Zhang, Lu Liu, Xiao-Xu Fang, Qian-Xi Zhang, Xiao Yuan, and He Lu, "Experimental Virtual Distillation of Entanglement and Coherence", Physical Review Letters 132 18, 180201 (2024).

[2166] X. X. Li, D. X. Li, and X. Q. Shao, "Generation of complete graph states in a spin-1/2 Heisenberg chain with a globally optimized magnetic field", Physical Review A 109 4, 042604 (2024).

[2167] Duc Tuan Hoang, Friederike Metz, Andreas Thomasen, Tran Duong Anh-Tai, Thomas Busch, and Thomás Fogarty, "Variational quantum algorithm for ergotropy estimation in quantum many-body batteries", Physical Review Research 6 1, 013038 (2024).

[2168] Stav Haldar, Pratik J. Barge, Sumeet Khatri, and Hwang Lee, "Fast and reliable entanglement distribution with quantum repeaters: Principles for improving protocols using reinforcement learning", Physical Review Applied 21 2, 024041 (2024).

[2169] Keerthi Kumaran, Manas Sajjan, Sangchul Oh, and Sabre Kais, "Random projection using random quantum circuits", Physical Review Research 6 1, 013010 (2024).

[2170] Ahana Chakraborty, Kun Chen, Aidan Zabalo, Justin H. Wilson, and J. H. Pixley, "Charge and entanglement criticality in a U(1)-symmetric hybrid circuit of qubits", Physical Review B 110 4, 045135 (2024).

[2171] Yuta Shingu, Tetsuro Nikuni, Shiro Kawabata, and Yuichiro Matsuzaki, "Quantum annealing with error mitigation", Physical Review A 109 4, 042606 (2024).

[2172] Wesley Roberts, Michael Vogl, and Gregory A. Fiete, "Fidelity of the Kitaev honeycomb model under a quench", Physical Review B 109 22, L220406 (2024).

[2173] Minjae Kim, Sangkook Choi, Walber Hugo Brito, and Gabriel Kotliar, "Orbital-Selective Mott Transition Effects and Nontrivial Topology of Iron Chalcogenide", Physical Review Letters 132 13, 136504 (2024).

[2174] Zi-Jian Xu and Jun-Hong An, "Noise mitigation in quantum teleportation", Physical Review A 110 1, 012442 (2024).

[2175] Cheryne Jonay, Joaquin F. Rodriguez-Nieva, and Vedika Khemani, "Slow thermalization and subdiffusion in U (1 ) conserving Floquet random circuits", Physical Review B 109 2, 024311 (2024).

[2176] Xue-Jia Yu and Wei-Lin Li, "Fidelity susceptibility at the Lifshitz transition between the noninteracting topologically distinct quantum critical points", Physical Review B 110 4, 045119 (2024).

[2177] Peiyan Wang, Weijie Du, Wei Zuo, and James P. Vary, "Nuclear scattering via quantum computing", Physical Review C 109 6, 064623 (2024).

[2178] Xuanran Zhu, Chao Zhang, and Bei Zeng, "Quantifying subspace entanglement with geometric measures", Physical Review A 110 1, 012452 (2024).

[2179] Ilya A. Simakov, Grigoriy S. Mazhorin, Ilya N. Moskalenko, Seidali S. Seidov, and Ilya S. Besedin, "High-fidelity transmon-coupler-activated C C Z gate on fluxonium qubits", Physical Review Applied 21 4, 044035 (2024).

[2180] Michael A. Jones, Harish J. Vallury, and Lloyd C. L. Hollenberg, "Ground-state-energy calculation for the water molecule on a superconducting quantum processor", Physical Review Applied 21 6, 064017 (2024).

[2181] Sohrab Sajadimanesh and Ehsan Atoofian, "Implementation of a quantum division circuit on noisy intermediate-scale quantum devices using dynamic circuits and approximate computing", Physical Review A 109 5, 052601 (2024).

[2182] Zheng An, Jiahui Wu, Muchun Yang, D. L. Zhou, and Bei Zeng, "Unified quantum state tomography and Hamiltonian learning: A language-translation-like approach for quantum systems", Physical Review Applied 21 1, 014037 (2024).

[2183] Rhys G. Povey, Ming-Han Chou, Gustav Andersson, Christopher R. Conner, Joel Grebel, Yash J. Joshi, Jacob M. Miller, Hong Qiao, Xuntao Wu, Haoxiong Yan, and Andrew N. Cleland, "Two-dimensional optomechanical crystal resonator in gallium arsenide", Physical Review Applied 21 1, 014015 (2024).

[2184] Tatiana Vovk and Hannes Pichler, "Quantum trajectory entanglement in various unravelings of Markovian dynamics", Physical Review A 110 1, 012207 (2024).

[2185] Simon Cichy, Paul K. Faehrmann, Sumeet Khatri, and Jens Eisert, "Perturbative gadgets for gate-based quantum computing: Nonrecursive constructions without subspace restrictions", Physical Review A 109 5, 052624 (2024).

[2186] André J. Ferreira-Martins, Leandro Silva, Alberto Palhares, Rodrigo Pereira, Diogo O. Soares-Pinto, Rafael Chaves, and Askery Canabarro, "Detecting quantum phase transitions in a frustrated spin chain via transfer learning of a quantum classifier algorithm", Physical Review A 109 5, 052623 (2024).

[2187] Ke Zeng, Xiaohui Yu, Martin B. Plenio, and Zhen-Yu Wang, "Wide-Band Unambiguous Quantum Sensing via Geodesic Evolution", Physical Review Letters 132 25, 250801 (2024).

[2188] Wataru Inoue, Koki Aoyama, Yusuke Teranishi, Keita Kanno, Yuya O. Nakagawa, and Kosuke Mitarai, "Almost optimal measurement scheduling of molecular Hamiltonian via finite projective plane", Physical Review Research 6 1, 013096 (2024).

[2189] Chan Bin Bark, Youngseok Kim, and Moon Jip Park, "Floquet chiral quantum walk in a quantum computer", Physical Review B 109 20, L201117 (2024).

[2190] Bruno Murta and J. Fernández-Rossier, "From Heisenberg to Hubbard: An initial state for the shallow quantum simulation of correlated electrons", Physical Review B 109 3, 035128 (2024).

[2191] He-Guang Xu, V. Montenegro, Gao Xianlong, Jiasen Jin, and G. D. de Moraes Neto, "Persisting quantum effects in the anisotropic Rabi model at thermal equilibrium", Physical Review Research 6 1, 013001 (2024).

[2192] Rui Li, Junling Du, Zheng Qin, Shikun Zhang, Chunxiao Du, Yang Zhou, and Zhisong Xiao, "Entanglement structure detection via computer vision", Physical Review A 110 1, 012448 (2024).

[2193] Teiko Heinosaari, Oskari Kerppo, Leevi Leppäjärvi, and Martin Plávala, "Simple information-processing tasks with unbounded quantum advantage", Physical Review A 109 3, 032627 (2024).

[2194] Amit Jamadagni, Javad Kazemi, and Arpan Bhattacharyya, "Kibble-Zurek mechanism and errors of gapped quantum phases", Physical Review B 110 4, 045140 (2024).

[2195] Zhangjie Qin, Daniel Azses, Eran Sela, Robert Raussendorf, and V. W. Scarola, "Redundant string symmetry-based error correction: Demonstrations on quantum devices", Physical Review A 110 1, 012465 (2024).

[2196] Qi-Ming Ding, Yi-Ming Huang, and Xiao Yuan, "Molecular docking via quantum approximate optimization algorithm", Physical Review Applied 21 3, 034036 (2024).

[2197] M. -R. Yun, Zheng Shan, L. -L. Sun, L. -L. Yan, Y. Jia, Shi-Lei Su, and Gang Chen, "One-step implementation of a nonadiabatic geometric fSim gate in superconducting circuits", Physical Review A 110 2, 022608 (2024).

[2198] Stuart J. Masson, Zhenjie Yan, Jacquelyn Ho, Yue-Hui Lu, Dan M. Stamper-Kurn, and Ana Asenjo-Garcia, "State-insensitive wavelengths for light shifts and photon scattering from Zeeman states", Physical Review A 109 6, 063105 (2024).

[2199] Xuliang Du, Yang Shen, Zipeng Wu, Bei Zeng, and Sen Yang, "Demonstration of a variational quantum eigensolver with a solid-state spin system under ambient conditions", Physical Review Applied 22 1, 014055 (2024).

[2200] Ruidi Zhu, Ciara Pike-Burke, and Florian Mintert, "Active learning for quantum mechanical measurements", Physical Review A 109 6, 062404 (2024).

[2201] Qingshan Xu, Xiaoqing Tan, Yangwei Ou, Daipengwei Bao, and Rui Huang, "Efficient verification of two-colorable graph states", Physical Review A 110 1, 012606 (2024).

[2202] Yu Wang and Wei Cui, "Classical shadow tomography with mutually unbiased bases", Physical Review A 109 6, 062406 (2024).

[2203] Daniil Rabinovich, Ernesto Campos, Soumik Adhikary, Ekaterina Pankovets, Dmitry Vinichenko, and Jacob Biamonte, "Robustness of variational quantum algorithms against stochastic parameter perturbation", Physical Review A 109 4, 042426 (2024).

[2204] Ruyu Yang, Wencheng Zhao, and Tingting Chen, "Scalable algorithms for calculating power functions of random quantum states in the noisy intermediate-scale quantum era", Physical Review A 109 6, 062421 (2024).

[2205] Gaurav Saxena, Ahmed Shalabi, and Thi Ha Kyaw, "Practical limitations of quantum data propagation on noisy quantum processors", Physical Review Applied 21 5, 054014 (2024).

[2206] Daniel Alvestad, Alexander Rothkopf, and Dénes Sexty, "Lattice real-time simulations with learned optimal kernels", Physical Review D 109 3, L031502 (2024).

[2207] Yongdan Yang, Ying Li, Xiaosi Xu, and Xiao Yuan, "Resource-efficient quantum-classical hybrid algorithm for energy gap evaluation", Physical Review A 109 5, 052416 (2024).

[2208] Rodrigo Martínez-Peña, Miguel C. Soriano, and Roberta Zambrini, "Quantum fidelity kernel with a trapped-ion simulation platform", Physical Review A 109 4, 042612 (2024).

[2209] Xiaojian Du and Wenyang Qian, "Accelerated quantum circuit Monte Carlo simulation for heavy quark thermalization", Physical Review D 109 7, 076025 (2024).

[2210] Davide Rattacaso, Gianluca Passarelli, Angelo Russomanno, Procolo Lucignano, Giuseppe E. Santoro, and Rosario Fazio, "Parent Hamiltonian Reconstruction via Inverse Quantum Annealing", Physical Review Letters 132 16, 160401 (2024).

[2211] Ahmad Farooq, Cristian A. Galvis-Florez, and Simo Särkkä, "Quantum-assisted Hilbert-space Gaussian process regression", Physical Review A 109 5, 052410 (2024).

[2212] Yintai Zhang and Jacek Dziarmaga, "Bang-bang preparation of quantum many-body ground states in two dimensions: Optimization of the algorithm with a two-dimensional tensor network", Physical Review B 109 23, 235124 (2024).

[2213] Da-Jian Zhang and D. M. Tong, "Inferring Physical Properties of Symmetric States from the Fewest Copies", Physical Review Letters 133 4, 040202 (2024).

[2214] Christopher K. Long, Kieran Dalton, Crispin H. W. Barnes, David R. M. Arvidsson-Shukur, and Normann Mertig, "Layering and subpool exploration for adaptive variational quantum eigensolvers: Reducing circuit depth, runtime, and susceptibility to noise", Physical Review A 109 4, 042413 (2024).

[2215] Xin-Yu Xu, Yi-Zheng Zhen, Qing Zhou, Shu-Ming Hu, Jun-Hao Wei, Nuo-Ya Yang, Li Li, Nai-Le Liu, and Kai Chen, "Measurement-device-independent verification of quantum states", Physical Review A 109 5, 052607 (2024).

[2216] Mingrui Jing, Geng Liu, Hongbin Ren, and Xin Wang, "Quantum sequential scattering model for quantum state learning", Physical Review A 109 6, 062425 (2024).

[2217] Pharnam Bakhshinezhad, Beniamin R. Jablonski, Felix C. Binder, and Nicolai Friis, "Trade-offs between precision and fluctuations in charging finite-dimensional quantum batteries", Physical Review E 109 1, 014131 (2024).

[2218] Ivan Medina, Alexandre Drinko, Guilherme I. Correr, Pedro C. Azado, and Diogo O. Soares-Pinto, "Variational-quantum-eigensolver-inspired optimization for spin-chain work extraction", Physical Review A 110 1, 012443 (2024).

[2219] Matthew Duschenes, Juan Carrasquilla, and Raymond Laflamme, "Characterization of overparametrization in the simulation of realistic quantum systems", Physical Review A 109 6, 062607 (2024).

[2220] Shumpei Kobayashi, Quoc Hoan Tran, and Kohei Nakajima, "Extending echo state property for quantum reservoir computing", Physical Review E 110 2, 024207 (2024).

[2221] M. W. van Mourik, E. Zapusek, P. Hrmo, L. Gerster, R. Blatt, T. Monz, P. Schindler, and F. Reiter, "Experimental Realization of Nonunitary Multiqubit Operations", Physical Review Letters 132 4, 040602 (2024).

[2222] Charlotte Bäcker, Konstantin Beyer, and Walter T. Strunz, "Local Disclosure of Quantum Memory in Non-Markovian Dynamics", Physical Review Letters 132 6, 060402 (2024).

[2223] Tao Chen, Jia-Qi Hu, Chengxian Zhang, and Zheng-Yuan Xue, "Universal robust geometric quantum control via geometric trajectory correction", Physical Review Applied 22 1, 014060 (2024).

[2224] Byeongseon Go, Changhun Oh, Liang Jiang, and Hyunseok Jeong, "Exploring shallow-depth boson sampling: Toward a scalable quantum advantage", Physical Review A 109 5, 052613 (2024).

[2225] Sebastián V. Romero, Xi Chen, Gloria Platero, and Yue Ban, "Optimizing edge-state transfer in a Su-Schrieffer-Heeger chain via hybrid analog-digital strategies", Physical Review Applied 21 3, 034033 (2024).

[2226] Hjalmar Rall and Mark Tame, "Demonstration of teleportation across a quantum network code", Physical Review A 110 2, 022602 (2024).

[2227] Yiming Huang, Xiao Yuan, Huiyuan Wang, and Yuxuan Du, "Coreset selection can accelerate quantum machine learning models with provable generalization", Physical Review Applied 22 1, 014074 (2024).

[2228] Katarzyna Siudzińska, "Non-Markovian quantum dynamics from symmetric measurements", Physical Review A 110 1, 012440 (2024).

[2229] João C. Getelina, Cai-Zhuang Wang, Thomas Iadecola, Yong-Xin Yao, and Peter P. Orth, "Adaptive variational ground state preparation for spin-1 models on qubit-based architectures", Physical Review B 109 8, 085128 (2024).

[2230] Guilherme Zambon and Diogo O. Soares-Pinto, "Relations between Markovian and non-Markovian correlations in multitime quantum processes", Physical Review A 109 6, 062401 (2024).

[2231] Zhong-Xia Shang, "Hermitian-preserving ansatz and variational open quantum eigensolver", Physical Review A 109 6, 062608 (2024).

[2232] Bowen Shao, Xiaodong Yang, Ran Liu, Yue Zhai, Dawei Lu, Tao Xin, and Jun Li, "Multiple classical noise mitigation by multiobjective robust quantum optimal control", Physical Review Applied 21 3, 034042 (2024).

[2233] Alastair Kay, "Incorporating encoding into quantum system design", Physical Review A 109 4, 042408 (2024).

[2234] Weijie Huang and Yao Yao, "Spatial inversion symmetry breaking of vortex current in a biased-ladder superfluid", Physical Review Research 6 1, 013037 (2024).

[2235] Keitaro Anai, Shion Ikehara, Yoshichika Yano, Daichi Okuno, and Shuntaro Takeda, "Continuous-variable quantum kernel method on a programmable photonic quantum processor", Physical Review A 110 2, 022404 (2024).

[2236] Bojia Duan and Chang-Yu Hsieh, "Compact and classically preprocessed data-loading quantum circuit as a quantum random access memory", Physical Review A 110 1, 012616 (2024).

[2237] Yapeng Wang, Yongcheng Ding, Francisco Andrés Cárdenas-López, and Xi Chen, "Pulse-based variational quantum optimization and metalearning in superconducting circuits", Physical Review Applied 22 2, 024009 (2024).

[2238] Yan Liang and Zheng-Yuan Xue, "Nonadiabatic geometric quantum gates with on-demand trajectories", Physical Review Applied 21 6, 064048 (2024).

[2239] Isaac D. Smith, Hendrik Poulsen Nautrup, and Hans J. Briegel, "Parity Quantum Computing as y z -Plane Measurement-Based Quantum Computing", Physical Review Letters 132 22, 220602 (2024).

[2240] Andrea Rodriguez-Blanco, Farid Shahandeh, and Alejandro Bermudez, "Witnessing entanglement in trapped-ion quantum error correction under realistic noise", Physical Review A 109 5, 052417 (2024).

[2241] Christian Carisch, Oded Zilberberg, and Alessandro Romito, "Effect of the readout efficiency of quantum measurement on the system entanglement", Physical Review A 110 2, 022214 (2024).

[2242] Marllos E. F. Fernandes, Emanuel F. de Lima, and Leonardo K. Castelano, "Optimizing control fields for diabatic protocols in the presence of noise", Physical Review A 109 5, 052622 (2024).

[2243] Attila Portik, Orsolya Kálmán, Igor Jex, and Tamás Kiss, "Robustness of chaotic behavior in iterated quantum protocols", Physical Review A 109 4, 042410 (2024).

[2244] Bozhi Wang, Jingwei Wen, Jiawei Wu, Haonan Xie, Fan Yang, Dong Ruan, Shijie Wei, and Gui-lu Long, "Improving the full quantum eigensolver with exponentiated operators", Physical Review B 109 24, 245117 (2024).

[2245] Kevin Randles and S. J. van Enk, "Success probabilities in time-reversal-based hybrid quantum state transfer", Physical Review A 110 1, 012415 (2024).

[2246] Thinh Viet Le and Vassilis Kekatos, "Solving constrained optimization problems via the variational quantum eigensolver with constraints", Physical Review A 110 2, 022430 (2024).

[2247] Manuel H. Muñoz-Arias, Stefanos Kourtis, and Alexandre Blais, "Low-depth Clifford circuits approximately solve MaxCut", Physical Review Research 6 2, 023294 (2024).

[2248] Daniel Alcalde Puente, Felix Motzoi, Tommaso Calarco, Giovanna Morigi, and Matteo Rizzi, "Quantum state preparation via engineered ancilla resetting", Quantum 8, 1299 (2024).

[2249] Samson Wang, Piotr Czarnik, Andrew Arrasmith, M. Cerezo, Lukasz Cincio, and Patrick J. Coles, "Can Error Mitigation Improve Trainability of Noisy Variational Quantum Algorithms?", Quantum 8, 1287 (2024).

[2250] Giovanni Pecci, Ruiyi Wang, Pietro Torta, Glen Bigan Mbeng, and Giuseppe Santoro, "Beyond quantum annealing: optimal control solutions to maxcut problems", Quantum Science and Technology 9 4, 045013 (2024).

[2251] Manuel S. Rudolph, Jing Chen, Jacob Miller, Atithi Acharya, and Alejandro Perdomo-Ortiz, "Decomposition of matrix product states into shallow quantum circuits", Quantum Science and Technology 9 1, 015012 (2024).

[2252] Louis Paletta, Anthony Leverrier, Alain Sarlette, Mazyar Mirrahimi, and Christophe Vuillot, "Robust sparse IQP sampling in constant depth", Quantum 8, 1337 (2024).

[2253] Kapil Goswami, Rick Mukherjee, Herwig Ott, and Peter Schmelcher, "Solving optimization problems with local light-shift encoding on Rydberg quantum annealers", Physical Review Research 6 2, 023031 (2024).

[2254] Akhil Pratap Singh, Kosuke Mitarai, Yasunari Suzuki, Kentaro Heya, Yutaka Tabuchi, Keisuke Fujii, and Yasunobu Nakamura, "Experimental demonstration of a high-fidelity virtual two-qubit gate", Physical Review Research 6 1, 013235 (2024).

[2255] Frédéric Sauvage, Martín Larocca, Patrick J. Coles, and M. Cerezo, "Building spatial symmetries into parameterized quantum circuits for faster training", Quantum Science and Technology 9 1, 015029 (2024).

[2256] Joe Gibbs, Zoë Holmes, Matthias C. Caro, Nicholas Ezzell, Hsin-Yuan Huang, Lukasz Cincio, Andrew T. Sornborger, and Patrick J. Coles, "Dynamical simulation via quantum machine learning with provable generalization", Physical Review Research 6 1, 013241 (2024).

[2257] Taro Kanao and Hayato Goto, "Fast elementary gates for universal quantum computation with Kerr parametric oscillator qubits", Physical Review Research 6 1, 013192 (2024).

[2258] Han Qi, Sihui Xiao, Zhuo Liu, Changqing Gong, and Abdullah Gani, "Variational quantum algorithms: fundamental concepts, applications and challenges", Quantum Information Processing 23 6, 224 (2024).

[2259] Xiaojian Zhou, Jieyao Yu, Junfan Tan, and Ting Jiang, "Quantum kernel estimation-based quantum support vector regression", Quantum Information Processing 23 1, 29 (2024).

[2260] Kazutaka Takahashi and Adolfo del Campo, "Shortcuts to Adiabaticity in Krylov Space", Physical Review X 14 1, 011032 (2024).

[2261] Norihito Shirai, Kenji Kubo, Kosuke Mitarai, and Keisuke Fujii, "Quantum tangent kernel", Physical Review Research 6 3, 033179 (2024).

[2262] Simon-Dominik Börner, Christoph Berke, David P. DiVincenzo, Simon Trebst, and Alexander Altland, "Classical chaos in quantum computers", Physical Review Research 6 3, 033128 (2024).

[2263] Johannes Selisko, Maximilian Amsler, Thomas Hammerschmidt, Ralf Drautz, and Thomas Eckl, "Extending the variational quantum eigensolver to finite temperatures", Quantum Science and Technology 9 1, 015026 (2024).

[2264] Yuichiro Nakano, Hideaki Hakoshima, Kosuke Mitarai, and Keisuke Fujii, "Markov-chain Monte Carlo method enhanced by a quantum alternating operator ansatz", Physical Review Research 6 3, 033105 (2024).

[2265] Nikolay V. Tkachenko, Lukasz Cincio, Alexander I. Boldyrev, Sergei Tretiak, Pavel A. Dub, and Yu Zhang, "Quantum Davidson algorithm for excited states", Quantum Science and Technology 9 3, 035012 (2024).

[2266] Ryo Watanabe, Keisuke Fujii, and Hiroshi Ueda, "Variational quantum eigensolver with embedded entanglement using a tensor-network ansatz", Physical Review Research 6 2, 023009 (2024).

[2267] Gian Gentinetta, Friederike Metz, and Giuseppe Carleo, "Overhead-constrained circuit knitting for variational quantum dynamics", Quantum 8, 1296 (2024).

[2268] Javier Gonzalez-Conde, Thomas W. Watts, Pablo Rodriguez-Grasa, and Mikel Sanz, "Efficient quantum amplitude encoding of polynomial functions", Quantum 8, 1297 (2024).

[2269] Chong Hian Chee, Adrian M. Mak, Daniel Leykam, Panagiotis Kl Barkoutsos, and Dimitris G. Angelakis, "Computing electronic correlation energies using linear depth quantum circuits", Quantum Science and Technology 9 2, 025003 (2024).

[2270] Rafael Wagner, Zohar Schwartzman-Nowik, Ismael L. Paiva, Amit Te'eni, Antonio Ruiz-Molero, Rui Soares Barbosa, Eliahu Cohen, and Ernesto F. Galvão, "Quantum circuits for measuring weak values, Kirkwood-Dirac quasiprobability distributions, and state spectra", Quantum Science and Technology 9 1, 015030 (2024).

[2271] Chae-Yeun Park and Nathan Killoran, "Hamiltonian variational ansatz without barren plateaus", Quantum 8, 1239 (2024).

[2272] Talal Ahmed Chowdhury, Kwangmin Yu, Mahmud Ashraf Shamim, M. L. Kabir, and Raza Sabbir Sufian, "Enhancing quantum utility: Simulating large-scale quantum spin chains on superconducting quantum computers", Physical Review Research 6 3, 033107 (2024).

[2273] Jessica Pointing, Oded Padon, Zhihao Jia, Henry Ma, Auguste Hirth, Jens Palsberg, and Alex Aiken, "Quanto: optimizing quantum circuits with automatic generation of circuit identities", Quantum Science and Technology 9 4, 045009 (2024).

[2274] Alessandro Summer, Cecilia Chiaracane, Mark T. Mitchison, and John Goold, "Calculating the many-body density of states on a digital quantum computer", Physical Review Research 6 1, 013106 (2024).

[2275] Stavros Efthymiou, Alvaro Orgaz-Fuertes, Rodolfo Carobene, Juan Cereijo, Andrea Pasquale, Sergi Ramos-Calderer, Simone Bordoni, David Fuentes-Ruiz, Alessandro Candido, Edoardo Pedicillo, Matteo Robbiati, Yuanzheng Paul Tan, Jadwiga Wilkens, Ingo Roth, José Ignacio Latorre, and Stefano Carrazza, "Qibolab: an open-source hybrid quantum operating system", Quantum 8, 1247 (2024).

[2276] Titos Matsakos and Stuart Nield, "Quantum Monte Carlo simulations for financial risk analytics: scenario generation for equity, rate, and credit risk factors", Quantum 8, 1306 (2024).

[2277] Paul Pöpperl, Igor V. Gornyi, David B. Saakian, and Oleg M. Yevtushenko, "Localization, fractality, and ergodicity in a monitored qubit", Physical Review Research 6 1, 013313 (2024).

[2278] Gonzalo Camacho and Benedikt Fauseweh, "Prolonging a discrete time crystal by quantum-classical feedback", Physical Review Research 6 3, 033092 (2024).

[2279] Martin Mootz, Peter P. Orth, Chuankun Huang, Liang Luo, Jigang Wang, and Yong-Xin Yao, "Two-dimensional coherent spectrum of high-spin models via a quantum computing approach", Quantum Science and Technology 9 3, 035054 (2024).

[2280] Owen Lockwood, Peter Weiss, Filip Aronshtein, and Guillaume Verdon, "Quantum dynamical Hamiltonian Monte Carlo", Physical Review Research 6 3, 033142 (2024).

[2281] Victor Wei, W. A. Coish, Pooya Ronagh, and Christine A. Muschik, "Neural-shadow quantum state tomography", Physical Review Research 6 2, 023250 (2024).

[2282] Tasneem M. Watad and Netanel H. Lindner, "Variational quantum algorithms for simulation of Lindblad dynamics", Quantum Science and Technology 9 2, 025015 (2024).

[2283] J. A. Montañez-Barrera, Dennis Willsch, A. Maldonado-Romo, and Kristel Michielsen, "Unbalanced penalization: a new approach to encode inequality constraints of combinatorial problems for quantum optimization algorithms", Quantum Science and Technology 9 2, 025022 (2024).

[2284] V. Vijendran, Aritra Das, Dax Enshan Koh, Syed M. Assad, and Ping Koy Lam, "An expressive ansatz for low-depth quantum approximate optimisation", Quantum Science and Technology 9 2, 025010 (2024).

[2285] Sean Greenaway, Adam Smith, Florian Mintert, and Daniel Malz, "Analogue Quantum Simulation with Fixed-Frequency Transmon Qubits", Quantum 8, 1263 (2024).

[2286] Qian Xu, Pei Zeng, Daohong Xu, and Liang Jiang, "Fault-Tolerant Operation of Bosonic Qubits with Discrete-Variable Ancillae", Physical Review X 14 3, 031016 (2024).

[2287] Weiyuan Gong, Dong Yuan, Weikang Li, and Dong-Ling Deng, "Enhancing quantum adversarial robustness by randomized encodings", Physical Review Research 6 2, 023020 (2024).

[2288] Kasra Hejazi, Mario Motta, and Garnet Kin-Lic Chan, "Adiabatic quantum imaginary time evolution", Physical Review Research 6 3, 033084 (2024).

[2289] Luke Causer, Felix Jung, Asimpunya Mitra, Frank Pollmann, and Adam Gammon-Smith, "Scalable simulation of nonequilibrium quantum dynamics via classically optimized unitary circuits", Physical Review Research 6 3, 033062 (2024).

[2290] Juan M. Cruz-Martinez, Matteo Robbiati, and Stefano Carrazza, "Multi-variable integration with a variational quantum circuit", Quantum Science and Technology 9 3, 035053 (2024).

[2291] Leeseok Kim, Seth Lloyd, and Milad Marvian, "Hamiltonian quantum generative adversarial networks", Physical Review Research 6 3, 033019 (2024).

[2292] Pavel P. Popov, Michael Meth, Maciej Lewestein, Philipp Hauke, Martin Ringbauer, Erez Zohar, and Valentin Kasper, "Variational quantum simulation of U(1) lattice gauge theories with qudit systems", Physical Review Research 6 1, 013202 (2024).

[2293] Roeland ter Hoeven, Benjamin E. Niehoff, Sagar Sudhir Kale, and Wolfgang Lechner, "Constructive plaquette compilation for the parity architecture", Quantum Science and Technology 9 3, 035056 (2024).

[2294] Diego García-Martín, Martín Larocca, and M. Cerezo, "Effects of noise on the overparametrization of quantum neural networks", Physical Review Research 6 1, 013295 (2024).

[2295] Bojia Duan, Xin Sun, and Chang-Yu Hsieh, "Parallelized variational quantum classifier with shallow QRAM circuit", Quantum Information Processing 23 3, 92 (2024).

[2296] Tao Jiang, John Rogers, Marius S. Frank, Ove Christiansen, Yong-Xin Yao, and Nicola Lanatà, "Error mitigation in variational quantum eigensolvers using tailored probabilistic machine learning", Physical Review Research 6 3, 033069 (2024).

[2297] Rihito Sakurai, Oliver J. Backhouse, George H. Booth, Wataru Mizukami, and Hiroshi Shinaoka, "Comparative study on compact quantum circuits of hybrid quantum-classical algorithms for quantum impurity models", Physical Review Research 6 2, 023110 (2024).

[2298] Eunok Bae and Soojoon Lee, "Recursive QAOA outperforms the original QAOA for the MAX-CUT problem on complete graphs", Quantum Information Processing 23 3, 78 (2024).

[2299] Casey Jameson, Bora Basyildiz, Daniel Moore, Kyle Clark, and Zhexuan Gong, "Time optimal quantum state transfer in a fully-connected quantum computer", Quantum Science and Technology 9 1, 015014 (2024).

[2300] Quoc Hoan Tran, Shinji Kikuchi, and Hirotaka Oshima, "Variational denoising for variational quantum eigensolver", Physical Review Research 6 2, 023181 (2024).

[2301] Thi Ha Kyaw, Micheline B. Soley, Brandon Allen, Paul Bergold, Chong Sun, Victor S. Batista, and Alán Aspuru-Guzik, "Boosting quantum amplitude exponentially in variational quantum algorithms", Quantum Science and Technology 9 1, 01LT01 (2024).

[2302] Chenyi Huang and Shibin Zhang, "Adversarial examples detection based on quantum fuzzy convolution neural network", Quantum Information Processing 23 4, 143 (2024).

[2303] Mikel Garcia-de-Andoin, Álvaro Saiz, Pedro Pérez-Fernández, Lucas Lamata, Izaskun Oregi, and Mikel Sanz, "Digital-analog quantum computation with arbitrary two-body Hamiltonians", Physical Review Research 6 1, 013280 (2024).

[2304] Michael de Oliveira, Luís S. Barbosa, and Ernesto F. Galvão, "Quantum advantage in temporally flat measurement-based quantum computation", Quantum 8, 1312 (2024).

[2305] Koki Chinzei, Quoc Hoan Tran, Kazunori Maruyama, Hirotaka Oshima, and Shintaro Sato, "Splitting and parallelizing of quantum convolutional neural networks for learning translationally symmetric data", Physical Review Research 6 2, 023042 (2024).

[2306] M. Schumann, F. K. Wilhelm, and A. Ciani, "Emergence of noise-induced barren plateaus in arbitrary layered noise models", Quantum Science and Technology 9 4, 045019 (2024).

[2307] Hugo Perrin, Thibault Scoquart, Alexander Shnirman, Jörg Schmalian, and Kyrylo Snizhko, "Mitigating crosstalk errors by randomized compiling: Simulation of the BCS model on a superconducting quantum computer", Physical Review Research 6 1, 013142 (2024).

[2308] E. Medina-Guerra, Parveen Kumar, I. V. Gornyi, and Yuval Gefen, "Quantum state engineering by steering in the presence of errors", Physical Review Research 6 2, 023159 (2024).

[2309] Hangming Zhang, Ting Li, and Fei Li, "Joint mitigation of quantum gate and measurement errors via the Z-mixed-state expression of the Pauli channel", Quantum Information Processing 23 6, 213 (2024).

[2310] Huo Chen, Niladri Gomes, Siyuan Niu, and Wibe Albert de Jong, "Adaptive variational simulation for open quantum systems", Quantum 8, 1252 (2024).

[2311] Hanna Linn, Isak Brundin, Laura García-Álvarez, and Göran Johansson, "Resource analysis of quantum algorithms for coarse-grained protein folding models", Physical Review Research 6 3, 033112 (2024).

[2312] Ningyi Xie, Xinwei Lee, Dongsheng Cai, Yoshiyuki Saito, Nobuyoshi Asai, and Hoong Chuin Lau, "A feasibility-preserved quantum approximate solver for the Capacitated Vehicle Routing Problem", Quantum Information Processing 23 8, 291 (2024).

[2313] Daniel Jaschke, Alice Pagano, Sebastian Weber, and Simone Montangero, "Ab-initio tree-tensor-network digital twin for quantum computer benchmarking in 2D", Quantum Science and Technology 9 3, 035055 (2024).

[2314] J. van Dam, G. Avis, Tz B. Propp, F. Ferreira da Silva, J. A. Slater, T. E. Northup, and S. Wehner, "Hardware requirements for trapped-ion-based verifiable blind quantum computing with a measurement-only client", Quantum Science and Technology 9 4, 045031 (2024).

[2315] Dengke Qu, Edric Matwiejew, Kunkun Wang, Jingbo Wang, and Peng Xue, "Experimental implementation of quantum-walk-based portfolio optimization", Quantum Science and Technology 9 2, 025014 (2024).

[2316] Run-Hong He, Xu-Sheng Xu, Mark S. Byrd, and Zhao-Ming Wang, "Modularized and scalable compilation for double quantum dot quantum computing", Quantum Science and Technology 9 1, 015004 (2024).

[2317] Takahiro Ohgoe, Hokuto Iwakiri, Masaya Kohda, Kazuhide Ichikawa, Yuya O. Nakagawa, Hubert Okadome Valencia, and Sho Koh, "Demonstrating quantum computation for quasiparticle band structures", Physical Review Research 6 2, L022022 (2024).

[2318] Robert J. Banks, Dan E. Browne, and P. A. Warburton, "Rapid quantum approaches for combinatorial optimisation inspired by optimal state-transfer", Quantum 8, 1253 (2024).

[2319] Shangshang Shi, Zhimin Wang, Jiaxin Li, Yanan Li, Ruimin Shang, Guoqiang Zhong, and Yongjian Gu, "Quantum convolutional neural networks for multiclass image classification", Quantum Information Processing 23 5, 189 (2024).

[2320] Dongkeun Lee, Kyunghyun Baek, Joonsuk Huh, and Daniel K. Park, "Variational quantum state discriminator for supervised machine learning", Quantum Science and Technology 9 1, 015017 (2024).

[2321] Louis Schatzki, Guangkuo Liu, M. Cerezo, and Eric Chitambar, "Hierarchy of multipartite correlations based on concentratable entanglement", Physical Review Research 6 2, 023019 (2024).

[2322] Daniel Reitzner and Jan Bouda, "General measurements with limited resources and their application to quantum unambiguous state discrimination", Quantum Information Processing 23 7, 268 (2024).

[2323] Jinil Lee, Wooyeong Song, Donghwa Lee, Yosep Kim, Seung-Woo Lee, Hyang-Tag Lim, Hojoong Jung, Sang-Wook Han, and Yong-Su Kim, "Photonic variational quantum eigensolver using entanglement measurements", Quantum Science and Technology 9 4, 045028 (2024).

[2324] Florian Rehm, Sofia Vallecorsa, Kerstin Borras, Dirk Krücker, Michele Grossi, and Valle Varo, "Precise image generation on current noisy quantum computing devices", Quantum Science and Technology 9 1, 015009 (2024).

[2325] Tom Weber, Kerstin Borras, Karl Jansen, Dirk Krücker, and Matthias Riebisch, "Construction and volumetric benchmarking of quantum computing noise models", Physica Scripta 99 6, 065106 (2024).

[2326] Guillaume Dauphinais, David W. Kribs, and Michael Vasmer, "Stabilizer Formalism for Operator Algebra Quantum Error Correction", Quantum 8, 1261 (2024).

[2327] Michal Kolář and Radim Filip, "Local coherence by thermalized intra-system coupling", Quantum Science and Technology 9 3, 035052 (2024).

[2328] Sebastian Schulz, Dennis Willsch, and Kristel Michielsen, "Guided quantum walk", Physical Review Research 6 1, 013312 (2024).

[2329] Antonio Sannia, Rodrigo Martínez-Peña, Miguel C. Soriano, Gian Luca Giorgi, and Roberta Zambrini, "Dissipation as a resource for Quantum Reservoir Computing", Quantum 8, 1291 (2024).

[2330] Matthew Girling, Cristina Cîrstoiu, and David Jennings, "Simple formulation of no-cloning and no-hiding that admits efficient and robust verification", Physical Review Research 6 2, 023090 (2024).

[2331] I. A. Luchnikov, M. A. Gavreev, and A. K. Fedorov, "Controlling quantum many-body systems using reduced-order modeling", Physical Review Research 6 1, 013161 (2024).

[2332] L. Zambrano, A. D. Muñoz-Moller, M. Muñoz, L. Pereira, and A. Delgado, "Avoiding barren plateaus in the variational determination of geometric entanglement", Quantum Science and Technology 9 2, 025016 (2024).

[2333] Luca Gravina and Vincenzo Savona, "Adaptive variational low-rank dynamics for open quantum systems", Physical Review Research 6 2, 023072 (2024).

[2334] Sasu Tuohino, Vasilii Vadimov, Wallace Teixeira, Tommi Malmelin, Matti Silveri, and Mikko Möttönen, "Multimode physics of the unimon circuit", Physical Review Research 6 3, 033001 (2024).

[2335] Emiel Koridon, Joana Fraxanet, Alexandre Dauphin, Lucas Visscher, Thomas E. O'Brien, and Stefano Polla, "A hybrid quantum algorithm to detect conical intersections", Quantum 8, 1259 (2024).

[2336] Pascal Baßler, Markus Heinrich, and Martin Kliesch, "Time-optimal multi-qubit gates: Complexity, efficient heuristic and gate-time bounds", Quantum 8, 1279 (2024).

[2337] Daniel Gunlycke, C. Stephen Hellberg, and John P. T. Stenger, "Cascaded variational quantum eigensolver algorithm", Physical Review Research 6 1, 013238 (2024).

[2338] Xinglan Zhang, Feng Zhang, Yankun Guo, and Fei Chen, "Variational quantum multidimensional scaling algorithm", Quantum Information Processing 23 3, 77 (2024).

[2339] Qiuhao Chen, Yuxuan Du, Yuliang Jiao, Xiliang Lu, Xingyao Wu, and Qi Zhao, "Efficient and practical quantum compiler towards multi-qubit systems with deep reinforcement learning", Quantum Science and Technology 9 4, 045002 (2024).

[2340] Yinfei Li, Sanjib Ghosh, Jiangwei Shang, Qihua Xiong, and Xiangdong Zhang, "Estimating many properties of a quantum state via quantum reservoir processing", Physical Review Research 6 1, 013211 (2024).

[2341] Andrea Solfanelli, Stefano Ruffo, Sauro Succi, and Nicolò Defenu, "Stabilization of discrete time-crystalline response on a superconducting quantum computer by increasing the interaction range", Physical Review Research 6 1, 013311 (2024).

[2342] Maria-Andreea Filip, David Muñoz Ramo, and Nathan Fitzpatrick, "Variational Phase Estimation with Variational Fast Forwarding", Quantum 8, 1278 (2024).

[2343] Roman Abramov, Leonid Fedichkin, Dmitry Tsarev, and Alexander Alodjants, "High-dimensional graphs convolution for quantum walks photonic applications", Quantum Information Processing 23 5, 175 (2024).

[2344] Chenfeng Cao, Hiroshi Yano, and Yuya O. Nakagawa, "Accelerated variational quantum eigensolver with joint Bell measurement", Physical Review Research 6 1, 013205 (2024).

[2345] Ritajit Majumdar, Amit Saha, Amlan Chakrabarti, and Susmita Sur-Kolay, "Intermediate qutrit-assisted Toffoli gate decomposition with quantum error correction", Quantum Information Processing 23 2, 42 (2024).

[2346] Gang Wang, Bang-Hai Wang, and Shao-Ming Fei, "An RNN-policy gradient approach for quantum architecture search", Quantum Information Processing 23 5, 184 (2024).

[2347] Francesco Preti, Michael Schilling, Sofiene Jerbi, Lea M. Trenkwalder, Hendrik Poulsen Nautrup, Felix Motzoi, and Hans J. Briegel, "Hybrid discrete-continuous compilation of trapped-ion quantum circuits with deep reinforcement learning", Quantum 8, 1343 (2024).

[2348] Alexandre B. Tacla, Nina M. O'Neill, Gabriel G. Carlo, Fernando de Melo, and Raúl O. Vallejos, "Majorization-based benchmark of the complexity of quantum processors", Quantum Information Processing 23 6, 240 (2024).

[2349] Unai Aseguinolaza, Nahual Sobrino, Gabriel Sobrino, Joaquim Jornet-Somoza, and Juan Borge, "Error estimation in current noisy quantum computers", Quantum Information Processing 23 5, 181 (2024).

[2350] Daniel Tandeitnik and Thiago Guerreiro, "Evolving quantum circuits", Quantum Information Processing 23 3, 109 (2024).

[2351] Daniel Basilewitsch, Clemens Dlaska, and Wolfgang Lechner, "Comparing planar quantum computing platforms at the quantum speed limit", Physical Review Research 6 2, 023026 (2024).

[2352] Kushal Seetharam, Dries Sels, and Eugene Demler, "Platform tailored codesign of gate-based quantum simulation", Physical Review Research 6 3, 033059 (2024).

[2353] David Fitzek, Robert S. Jonsson, Werner Dobrautz, and Christian Schäfer, "Optimizing Variational Quantum Algorithms with qBang: Efficiently Interweaving Metric and Momentum to Navigate Flat Energy Landscapes", Quantum 8, 1313 (2024).

[2354] Sascha Heußen, Don Winter, Manuel Rispler, and Markus Müller, "Dynamical subset sampling of quantum error-correcting protocols", Physical Review Research 6 1, 013177 (2024).

[2355] Zoltán Guba, István Finta, Ákos Budai, Lóránt Farkas, Zoltán Zimborás, and András Pályi, "Resource analysis for quantum-aided Byzantine agreement with the four-qubit singlet state", Quantum 8, 1324 (2024).

[2356] Hiroo Azuma, "A simplified Mølmer-Sørensen gate for the trapped ion quantum computer", Physica Scripta 99 4, 045107 (2024).

[2357] Mohammad Bolokian, Ali A. Orouji, and Monireh Houshmand, "Advancing quantum broadcast performance in noisy environments: a generalized approach with 4n-qubit cluster states", Quantum Information Processing 23 3, 85 (2024).

[2358] Kamal K. Saha, Walter Robson, Connor Howington, In-Saeng Suh, Zhimin Wang, and Jaroslaw Nabrzyski, "Enhancing scalability and accuracy of quantum poisson solver", Quantum Information Processing 23 6, 209 (2024).

[2359] Yuxin Ji, Qinghui Chen, Rui Wang, Naihua Ji, and Hongyang Ma, "Quantum error correction for heavy hexagonal code using deep reinforcement learning with policy reuse", Quantum Information Processing 23 7, 255 (2024).

[2360] John F. Kam, Haiyue Kang, Charles D. Hill, Gary J. Mooney, and Lloyd C. L. Hollenberg, "Characterization of entanglement on superconducting quantum computers of up to 414 qubits", Physical Review Research 6 3, 033155 (2024).

[2361] En Chong Yap and Kai Lin Ong, "Quantum variations of cyclotomic cosets for cyclic stabiliser codes construction", Quantum Information Processing 23 6, 241 (2024).

[2362] Andrey Zhukov and Walter Pogosov, "Quantum error mitigation in the regime of high noise using deep neural network: Trotterized dynamics", Quantum Information Processing 23 3, 80 (2024).

[2363] Phuong-Nam Nguyen, "The duality game: a quantum algorithm for body dynamics modeling", Quantum Information Processing 23 1, 21 (2024).

[2364] Juan Carlos Garcia-Escartin, "Finding eigenvectors with a quantum variational algorithm", Quantum Information Processing 23 7, 254 (2024).

[2365] Jaehyun Bae, Gwangsu Yoo, Satoshi Nakamura, Shota Ohnishi, and Dae Sin Kim, "Hardware efficient decomposition of the Laplace operator and its application to the Helmholtz and the Poisson equation on quantum computer", Quantum Information Processing 23 7, 270 (2024).

[2366] Yuhan Huang, Siyuan Jin, Bei Zeng, and Qiming Shao, "Adaptive diversity-based quantum circuit architecture search", Physical Review Research 6 3, 033033 (2024).

[2367] Yuxiang Liu, Zaichen Zhang, Yi Hu, Fanxu Meng, Tian Luan, Xianchao Zhang, and Xutao Yu, "Practical circuit optimization algorithm for quantum simulation based on template matching", Quantum Information Processing 23 2, 45 (2024).

[2368] M. Oumennana, Z. Dahbi, and M. Mansour, "Coherence versus quantum-memory-assisted entropic uncertainty relation of double quantum dots with Rashba spin-orbit interaction", Quantum Information Processing 23 4, 114 (2024).

[2369] You-hang Liu, Xiao-shuang Cheng, Chang-wei Loh, and Yong Li, "Efficient preparation of lossless quantum images based on Gray code", Quantum Information Processing 23 5, 161 (2024).

[2370] Kyusung Hwang, "Mixed-State Quantum Spin Liquids and Dynamical Anyon Condensations in Kitaev Lindbladians", Quantum 8, 1412 (2024).

[2371] Javier Oliva del Moral, Antonio deMarti iOlius, Gerard Vidal, Pedro M. Crespo, and Josu Etxezarreta Martinez, "Cybersecurity in Critical Infrastructures: A Post-Quantum Cryptography Perspective", arXiv:2401.03780, (2024).

[2372] Pratibha Raghupati Hegde, Oleksandr Kyriienko, Hermanni Heimonen, Panagiotis Tolias, Gilbert Netzer, Panagiotis Barkoutsos, Ricardo Vinuesa, Ivy Peng, and Stefano Markidis, "Beyond the Buzz: Strategic Paths for Enabling Useful NISQ Applications", arXiv:2405.14561, (2024).

[2373] Piotr Mironowicz, Akshata Shenoy H., Antonio Mandarino, A. Ege Yilmaz, and Thomas Ankenbrand, "Applications of Quantum Machine Learning for Quantitative Finance", arXiv:2405.10119, (2024).

[2374] Krzysztof Giergiel, Peter Hannaford, and Krzysztof Sacha, "Time-tronics: from temporal printed circuit board to quantum computer", arXiv:2406.06387, (2024).

[2375] Ruochen Ma and Alex Turzillo, "Symmetry Protected Topological Phases of Mixed States in the Doubled Space", arXiv:2403.13280, (2024).

[2376] Pablo Viñas Martínez, Esperanza López, and Alejandro Bermudez, "Thermal masses and trapped-ion quantum spin models: a self-consistent approach to Yukawa-type interactions in the λϕ4 model", Quantum 8, 1411 (2024).

[2377] Francesco Campaioli, Stefano Gherardini, James Q. Quach, Marco Polini, and Gian Marcello Andolina, "Colloquium: Quantum batteries", Reviews of Modern Physics 96 3, 031001 (2024).

[2378] Shu Kanno, Hajime Nakamura, Takao Kobayashi, Shigeki Gocho, Miho Hatanaka, Naoki Yamamoto, and Qi Gao, "Quantum computing quantum Monte Carlo with hybrid tensor network for electronic structure calculations", npj Quantum Information 10, 56 (2024).

[2379] Samuele Ferracin, Akel Hashim, Jean-Loup Ville, Ravi Naik, Arnaud Carignan-Dugas, Hammam Qassim, Alexis Morvan, David I. Santiago, Irfan Siddiqi, and Joel J. Wallman, "Efficiently improving the performance of noisy quantum computers", Quantum 8, 1410 (2024).

[2380] Rathindra Nath Das and Takato Mori, "Krylov complexity of purification", arXiv:2408.00826, (2024).

[2381] Lorenzo Leone, Salvatore F. E. Oliviero, Lukasz Cincio, and M. Cerezo, "On the practical usefulness of the Hardware Efficient Ansatz", Quantum 8, 1395 (2024).

[2382] Robert Kudelić, "On the Theory of Quantum and Towards Practical Computation", arXiv:2403.09682, (2024).

[2383] João Barata, Kazuki Ikeda, Swagato Mukherjee, and Jonathan Raghoonanan, "Towards Quantum Computing Timelike Hadronic Vacuum Polarization and Light-by-Light Scattering: Schwinger Model Tests", arXiv:2406.03536, (2024).

[2384] Kieran Dalton, Christopher K. Long, Yordan S. Yordanov, Charles G. Smith, Crispin H. W. Barnes, Normann Mertig, and David R. M. Arvidsson-Shukur, "Quantifying the effect of gate errors on variational quantum eigensolvers for quantum chemistry", npj Quantum Information 10, 18 (2024).

[2385] Roland C. Farrell, Marc Illa, and Martin J. Savage, "Steps Toward Quantum Simulations of Hadronization and Energy-Loss in Dense Matter", arXiv:2405.06620, (2024).

[2386] A. Elsayed, M. M. K. Shehata, C. Godfrin, S. Kubicek, S. Massar, Y. Canvel, J. Jussot, G. Simion, M. Mongillo, D. Wan, B. Govoreanu, I. P. Radu, R. Li, P. Van Dorpe, and K. De Greve, "Low charge noise quantum dots with industrial CMOS manufacturing", npj Quantum Information 10, 70 (2024).

[2387] Remmy Zen, Jan Olle, Luis Colmenarez, Matteo Puviani, Markus Müller, and Florian Marquardt, "Quantum Circuit Discovery for Fault-Tolerant Logical State Preparation with Reinforcement Learning", arXiv:2402.17761, (2024).

[2388] Elisabeth Wybo and Martin Leib, "Missing Puzzle Pieces in the Performance Landscape of the Quantum Approximate Optimization Algorithm", arXiv:2406.14618, (2024).

[2389] Mao Tian Tan, Yifan Wang, and Aditi Mitra, "Topological defects in Floquet circuits", SciPost Physics 16 3, 075 (2024).

[2390] Gregory Quiroz, Bibek Pokharel, Joseph Boen, Lina Tewala, Vinay Tripathi, Devon Williams, Lian-Ao Wu, Paraj Titum, Kevin Schultz, and Daniel Lidar, "Dynamically generated decoherence-free subspaces and subsystems on superconducting qubits", Reports on Progress in Physics 87 9, 097601 (2024).

[2391] Lucas Friedrich, Tiago de Souza Farias, and Jonas Maziero, "Barren plateaus induced by the dimension of qudits", arXiv:2405.08190, (2024).

[2392] Francesco Turro, Ivan A. Chernyshev, Ramya Bhaskar, and Marc Illa, "Qutrit and Qubit Circuits for Three-Flavor Collective Neutrino Oscillations", arXiv:2407.13914, (2024).

[2393] Arianna Crippa, Simone Romiti, Lena Funcke, Karl Jansen, Stefan Kühn, Paolo Stornati, and Carsten Urbach, "Towards determining the (2+1)-dimensional Quantum Electrodynamics running coupling with Monte Carlo and quantum computing methods", arXiv:2404.17545, (2024).

[2394] Subhajit Sarkar and Berislav Buča, "Protecting coherence from the environment via Stark many-body localization in a Quantum-Dot Simulator", Quantum 8, 1392 (2024).

[2395] Constantin Dalyac, Lucas Leclerc, Louis Vignoli, Mehdi Djellabi, Wesley da Silva Coelho, Bruno Ximenez, Alexandre Dareau, Davide Dreon, VIncent E. Elfving, Adrien Signoles, Louis-Paul Henry, and Loïc Henriet, "Graph Algorithms with Neutral Atom Quantum Processors", arXiv:2403.11931, (2024).

[2396] Marzio Vallero, Gioele Casagranda, Flavio Vella, and Paolo Rech, "On the Efficacy of Surface Codes in Compensating for Radiation Events in Superconducting Devices", arXiv:2407.10841, (2024).

[2397] Ji Zou, Stefano Bosco, and Daniel Loss, "Spatially correlated classical and quantum noise in driven qubits", npj Quantum Information 10, 46 (2024).

[2398] Michael A. Rampp and Pieter W. Claeys, "Hayden-Preskill recovery in chaotic and integrable unitary circuit dynamics", Quantum 8, 1434 (2024).

[2399] Caroline E. P. Robin and Martin J. Savage, "The Magic in Nuclear and Hypernuclear Forces", arXiv:2405.10268, (2024).

[2400] You Zhou and Zhenhuan Liu, "A hybrid framework for estimating nonlinear functions of quantum states", npj Quantum Information 10, 62 (2024).

[2401] Andrew Zhao and Akimasa Miyake, "Group-theoretic error mitigation enabled by classical shadows and symmetries", npj Quantum Information 10, 57 (2024).

[2402] Niklas Pirnay, Vincent Ulitzsch, Frederik Wilde, Jens Eisert, and Jean-Pierre Seifert, "An in-principle super-polynomial quantum advantage for approximating combinatorial optimization problems via computational learning theory", Science Advances 10 11, eadj5170 (2024).

[2403] Joeson Wong, Mykyta Onizhuk, Jonah Nagura, Arashdeep S. Thind, Jasleen K. Bindra, Christina Wicker, Gregory D. Grant, Yuxuan Zhang, Jens Niklas, Oleg G. Poluektov, Robert F. Klie, Jiefei Zhang, Giulia Galli, F. Joseph Heremans, David D. Awschalom, and A. Paul Alivisatos, "Coherent Erbium Spin Defects in Colloidal Nanocrystal Hosts", arXiv:2406.07762, (2024).

[2404] Zhiyao Li, Dorota M. Grabowska, and Martin J. Savage, "Sequency Hierarchy Truncation (SeqHT) for Adiabatic State Preparation and Time Evolution in Quantum Simulations", arXiv:2407.13835, (2024).

[2405] Sean Greenaway, Francesco Petiziol, Zhao Hongzheng, and Florian Mintert, "Variational quantum gate optimization at the pulse level", SciPost Physics 16 3, 082 (2024).

[2406] Younghun Kim, Martin Sevior, and Muhammad Usman, "Transversal CNOT gate with multi-cycle error correction", arXiv:2406.12267, (2024).

[2407] George Watkins, Hoang Minh Nguyen, Keelan Watkins, Steven Pearce, Hoi-Kwan Lau, and Alexandru Paler, "A High Performance Compiler for Very Large Scale Surface Code Computations", Quantum 8, 1354 (2024).

[2408] Thomas Strohm, Karen Wintersperger, Florian Dommert, Daniel Basilewitsch, Georg Reuber, Andrey Hoursanov, Thomas Ehmer, Davide Vodola, and Sebastian Luber, "Ion-Based Quantum Computing Hardware: Performance and End-User Perspective", arXiv:2405.11450, (2024).

[2409] Achim Basermann, Michael Epping, Benedikt Fauseweh, Michael Felderer, Elisabeth Lobe, Melven Röhrig-Zöllner, Gary Schmiedinghoff, Peter K. Schuhmacher, Yoshinta Setyawati, and Alexander Weinert, "Quantum Software Ecosystem Design", arXiv:2405.13244, (2024).

[2410] Weiyuan Gong, Shuo Zhou, and Tongyang Li, "Complexity of Digital Quantum Simulation in the Low-Energy Subspace: Applications and a Lower Bound", Quantum 8, 1409 (2024).

[2411] Dohun Kim, Minyoung Kim, Sarah Meng Li, and Michele Mosca, "Improving the Fidelity of CNOT Circuits on NISQ Hardware", arXiv:2405.19891, (2024).

[2412] Evandro C. R. Rosa, Eduardo I. Duzzioni, and Rafael de Santiago, "Optimizing Gate Decomposition for High-Level Quantum Programming", arXiv:2406.05581, (2024).

[2413] Shi Jin, Xiantao Li, Nana Liu, and Yue Yu, "Quantum Simulation for Quantum Dynamics with Artificial Boundary Conditions", SIAM Journal on Scientific Computing 46 4, B403 (2024).

[2414] Andrew Wright, Marco Lewis, Paolo Zuliani, and Sadegh Soudjani, "T-Count Optimizing Genetic Algorithm for Quantum State Preparation", arXiv:2406.04004, (2024).

[2415] Xinjian Yan, Xinwei Lee, Ningyi Xie, Yoshiyuki Saito, Leo Kurosawa, Nobuyoshi Asai, Dongsheng Cai, and HoongChuin Lau, "Light Cone Cancellation for Variational Quantum Eigensolver Ansatz", arXiv:2404.19497, (2024).

[2416] Tim Schwägerl, Yahui Chai, Tobias Hartung, Karl Jansen, and Stefan Kühn, "Benchmarking Variational Quantum Algorithms for Combinatorial Optimization in Practice", arXiv:2408.03073, (2024).

[2417] Dhrumil Patel, Patrick J. Coles, and Mark M. Wilde, "Variational Quantum Algorithms for Semidefinite Programming", Quantum 8, 1374 (2024).

[2418] Akash Kundu, "Reinforcement learning-assisted quantum architecture search for variational quantum algorithms", arXiv:2402.13754, (2024).

[2419] Benoit Seron and Antoine Restivo, "BosonSampling.jl: A Julia package for quantum multi-photon interferometry", Quantum 8, 1378 (2024).

[2420] Abhijith Jayakumar, Stefano Chessa, Carleton Coffrin, Andrey Y. Lokhov, Marc Vuffray, and Sidhant Misra, "Universal framework for simultaneous tomography of quantum states and SPAM noise", Quantum 8, 1426 (2024).

[2421] Eric W. Aspling, John A. Marohn, and Michael J. Lawler, "Design constraints for Unruh-DeWitt quantum computers", SciPost Physics Core 7 2, 019 (2024).

[2422] Honghui Shang, Xiongzhi Zeng, Ming Gong, Yangju Wu, Shaojun Guo, Haoran Qian, Chen Zha, Zhijie Fan, Kai Yan, Xiaobo Zhu, Zhenyu Li, Yi Luo, Jian-Wei Pan, and Jinlong Yang, "Rapidly Achieving Chemical Accuracy with Quantum Computing Enforced Language Model", arXiv:2405.09164, (2024).

[2423] Scarlett Gauthier, Thirupathaiah Vasantam, and Gayane Vardoyan, "An on-demand resource allocation algorithm for a quantum network hub and its performance analysis", arXiv:2405.18066, (2024).

[2424] Timothy Proctor, Kevin Young, Andrew D. Baczewski, and Robin Blume-Kohout, "Benchmarking quantum computers", arXiv:2407.08828, (2024).

[2425] S. Mahesh Chandran and S. Shankaranarayanan, "Distinguishing bounce and inflation via quantum signatures from cosmic microwave background", arXiv:2405.08543, (2024).

[2426] Adrián Pérez-Salinas, Hao Wang, and Xavier Bonet-Monroig, "Analyzing variational quantum landscapes with information content", npj Quantum Information 10, 27 (2024).

[2427] David A. Kreplin and Marco Roth, "Reduction of finite sampling noise in quantum neural networks", Quantum 8, 1385 (2024).

[2428] Mrinal Kanti Giri and Sudhindu Bikash Mandal, "Realizing Topological Quantum Walks on NISQ Digital Quantum Computer", arXiv:2402.18685, (2024).

[2429] Seungbeom Chin, Yong-Su Kim, and Marcin Karczewski, "Shortcut to multipartite entanglement generation: A graph approach to boson subtractions", npj Quantum Information 10 1, 67 (2024).

[2430] Sahar Ben Rached, Carmen G. Almudever, Eduard Alarcon, and Sergi Abadal, "Spatio-Temporal Characterization of Qubit Routing in Connectivity-Constrained Quantum Processors", arXiv:2402.00469, (2024).

[2431] Arnaud Carignan-Dugas, Shashank Kumar Ranu, and Patrick Dreher, "Estimating Coherent Contributions to the Error Profile Using Cycle Error Reconstruction", Quantum 8, 1367 (2024).

[2432] Lars Krupp, Jonas Bley, Isacco Gobbi, Alexander Geng, Sabine Müller, Sungho Suh, Ali Moghiseh, Arcesio Castaneda Medina, Valeria Bartsch, Artur Widera, Herwig Ott, Paul Lukowicz, Jakob Karolus, and Maximilian Kiefer-Emmanouilidis, "LLM-Generated Tips Rival Expert-Created Tips in Helping Students Answer Quantum-Computing Questions", arXiv:2407.17024, (2024).

[2433] Emma C. King, Luigi Giannelli, Raphaël Menu, Johannes N. Kriel, and Giovanna Morigi, "Adiabatic quantum trajectories in engineered reservoirs", Quantum 8, 1428 (2024).

[2434] Haimeng Zhao, Giuseppe Carleo, and Filippo Vicentini, "Empirical Sample Complexity of Neural Network Mixed State Reconstruction", Quantum 8, 1358 (2024).

[2435] Philipp Seitz, Manuel Geiger, Christian Ufrecht, Axel Plinge, Christopher Mutschler, Daniel D. Scherer, and Christian B. Mendl, "SCIM MILQ: An HPC Quantum Scheduler", arXiv:2404.03512, (2024).

[2436] Zhenghao Yin, Iris Agresti, Giovanni de Felice, Douglas Brown, Alexis Toumi, Ciro Pentangelo, Simone Piacentini, Andrea Crespi, Francesco Ceccarelli, Roberto Osellame, Bob Coecke, and Philip Walther, "Experimental quantum-enhanced kernels on a photonic processor", arXiv:2407.20364, (2024).

[2437] Liam J. Bond, Bas Gerritsen, Jiří Minář, Jeremy T. Young, Johannes Schachenmayer, and Arghavan Safavi-Naini, "Open quantum dynamics with variational non-Gaussian states and the truncated Wigner approximation", arXiv:2407.02617, (2024).

[2438] Yikai Mao, Shaswot Shresthamali, and Masaaki Kondo, "Q-gen: A Parameterized Quantum Circuit Generator", arXiv:2407.18697, (2024).

[2439] Hoa T. Nguyen, Bui Binh An Pham, Muhammad Usman, and Rajkumar Buyya, "Quantum Serverless Paradigm and Application Development using the QFaaS Framework", arXiv:2407.02828, (2024).

[2440] Emine Akpinar, Sardar M. N. Islam, and Murat Oduncuoglu, "Evaluating the Impact of Different Quantum Kernels on the Classification Performance of Support Vector Machine Algorithm: A Medical Dataset Application", arXiv:2407.09930, (2024).

[2441] Zhiwen Zong, Sainan Huai, Tianqi Cai, Wenyan Jin, Ze Zhan, Zhenxing Zhang, Kunliang Bu, Liyang Sui, Ying Fei, Yicong Zheng, Shengyu Zhang, Jianlan Wu, and Yi Yin, "Determination of molecular energies via variational-based quantum imaginary time evolution in a superconducting qubit system", Science China Physics, Mechanics, and Astronomy 67 4, 240311 (2024).

[2442] Devanshu Brahmbhatt, Yilun Xu, Neel Vora, Larry Chen, Neelay Fruitwala, Gang Huang, Qing Ji, and Phuc Nguyen, "QubiCSV: An Open-Source Data Storage and Visualization Platform for Collaborative Qubit Control", arXiv:2403.14672, (2024).

[2443] Pau Escofet, Anabel Ovide, Medina Bandic, Luise Prielinger, Hans van Someren, Sebastian Feld, Eduard Alarcón, Sergi Abadal, and Carmen G. Almudéver, "Revisiting the Mapping of Quantum Circuits: Entering the Multi-Core Era", arXiv:2403.17205, (2024).

[2444] Emmanouil Giortamis, Francisco Romão, Nathaniel Tornow, and Pramod Bhatotia, "QOS: A Quantum Operating System", arXiv:2406.19120, (2024).

[2445] Filippo Fornetti, Alex Gnech, Tobias Frederico, Francesco Pederiva, Matteo Rinaldi, Alessandro Roggero, Giovanni Salme', Sergio Scopetta, and Michele Viviani, "Solving the homogeneous Bethe-Salpeter equation with a quantum annealer", arXiv:2406.18669, (2024).

[2446] Noah H. Oldfield, Christoph Laaber, Tao Yue, and Shaukat Ali, "Faster and Better Quantum Software Testing through Specification Reduction and Projective Measurements", arXiv:2405.15450, (2024).

[2447] Wang Qian and Ugo Marzolino, "Precision magnetometry exploiting excited state quantum phase transitions", SciPost Physics 17 2, 043 (2024).

[2448] I-Chi Chen, Nouhaila Innan, Suman Kumar Roy, and Jason Saroni, "Crossing The Gap Using Variational Quantum Eigensolver: A Comparative Study", arXiv:2405.11687, (2024).

[2449] Matthew Sutcliffe and Aleks Kissinger, "Procedurally Optimised ZX-Diagram Cutting for Efficient T-Decomposition in Classical Simulation", arXiv:2403.10964, (2024).

[2450] V. Armaos, Athanassios A. Argiriou, and Ioannis Kioutsioukis, "Quantum Computing and Atmospheric Dynamics: Exploring the Lorenz System", arXiv:2401.03475, (2024).

[2451] Nishant Saurabh, Pradeep Mantha, Florian J. Kiwit, Shantenu Jha, and Andre Luckow, "Quantum Mini-Apps: A Framework for Developing and Benchmarking Quantum-HPC Applications", arXiv:2405.07333, (2024).

[2452] Mario Ponce, Thomas Cope, Inés de Vega, and Martin Leib, "Performance and scaling analysis of variational quantum simulation", arXiv:2406.14411, (2024).

[2453] Antoine Michel, "Quantum simulation for strongly interacting fermions with neutral atoms array: towards the simulation of materials of interest", arXiv:2406.13343, (2024).

[2454] Congcong Zheng, Xutao Yu, and Kun Wang, "Cross-platform comparison of arbitrary quantum processes", npj Quantum Information 10, 4 (2024).

[2455] Saeed Haddadi and M. A. Yurischev, "Discord-type quantum correlations in axially symmetric spin-(1/2, $S$) systems", arXiv:2404.08124, (2024).

[2456] Gerhard Stenzel, Sebastian Zielinski, Michael Kölle, Philipp Altmann, Jonas Nüßlein, and Thomas Gabor, "Qandle: Accelerating State Vector Simulation Using Gate-Matrix Caching and Circuit Splitting", arXiv:2404.09213, (2024).

[2457] Wolfgang Maass, Ankit Agrawal, Alessandro Ciani, Sven Danz, Alejandro Delgadillo, Philipp Ganser, Pascal Kienast, Marco Kulig, Valentina König, Nil Rodellas-Gràcia, Rivan Rughubar, Stefan Schröder, Marc Stautner, Hannah Stein, Tobias Stollenwerk, Daniel Zeuch, and Frank K. Wilhelm, "Quantum Computing Enhanced Service Ecosystem for Simulation in Manufacturing", arXiv:2401.10623, (2024).

[2458] Ludwig Schmid, Enrico Zardini, and Davide Pastorello, "A general learning scheme for classical and quantum Ising machines", SciPost Physics Core 7 1, 013 (2024).

[2459] Hoa T. Nguyen, Prabhakar Krishnan, Dilip Krishnaswamy, Muhammad Usman, and Rajkumar Buyya, "Quantum Cloud Computing: A Review, Open Problems, and Future Directions", arXiv:2404.11420, (2024).

[2460] Nikita A. Nemkov, Evgeniy O. Kiktenko, and Aleksey K. Fedorov, "Barren plateaus are swamped with traps", arXiv:2405.05332, (2024).

[2461] Zidong Cui, Shan Jin, Akira Sone, and Xiaoting Wang, "Quantum advantages for image filtering on images with efficient encoding and lower-bounded signal-to-noise ratio", Science China Physics, Mechanics, and Astronomy 67 9, 290362 (2024).

[2462] Zhiding Liang, Gang Liu, Zheyuan Liu, Jinglei Cheng, Tianyi Hao, Kecheng Liu, Hang Ren, Zhixin Song, Ji Liu, Fanny Ye, and Yiyu Shi, "Graph Learning for Parameter Prediction of Quantum Approximate Optimization Algorithm", arXiv:2403.03310, (2024).

[2463] Alexander Benítez-Buenache and Queralt Portell-Montserrat, "Bayesian Parameterized Quantum Circuit Optimization (BPQCO): A task and hardware-dependent approach", arXiv:2404.11253, (2024).

[2464] Naoto Sato, Tomonori Sekiguchi, Takeru Utsugi, and Hiroyuki Mizuno, "Generating Shuttling Procedures for Constrained Silicon Quantum Dot Array", arXiv:2401.14683, (2024).

[2465] Daniel F Perez-Ramirez, "Variational Quantum Algorithms for Combinatorial Optimization", arXiv:2407.06421, (2024).

[2466] Niu Chence, Purvi Rastogi, Jaikishan Soman, Kausik Tamuli, and Vinayak V. Dixit, "Applying Quantum Computing to Solve Multicommodity Network Flow Problem", arXiv:2402.04758, (2024).

[2467] Gayathree M. Vinod and Anil Shaji, "Simulating quantum field theories on gate-based quantum computers", arXiv:2401.04496, (2024).

[2468] Vikesh Siddhu and John Aaron Smolin, "Maximum expectation of observables with restricted purity states", Quantum 8, 1437 (2024).

[2469] Pau Escofet, Alejandro Gonzalvo, Eduard Alarcón, Carmen G. Almudéver, and Sergi Abadal, "Route-Forcing: Scalable Quantum Circuit Mapping for Scalable Quantum Computing Architectures", arXiv:2407.17306, (2024).

[2470] Shuyan Zhou, Pengfei Zhang, and Zhenhua Yu, "Environment-induced Transitions in Many-body Quantum Teleportation", arXiv:2406.02277, (2024).

[2471] Amir Shehata, Thomas Naughton, and In-Saeng Suh, "A Framework for Integrating Quantum Simulation and High Performance Computing", arXiv:2408.08098, (2024).

[2472] Shamminuj Aktar, Andreas Bärtschi, Diane Oyen, Stephan Eidenbenz, and Abdel-Hameed A. Badawy, "Graph Neural Networks for Parameterized Quantum Circuits Expressibility Estimation", arXiv:2405.08100, (2024).

[2473] Pauline Besserve, Michel Ferrero, and Thomas Ayral, "Compact fermionic quantum state preparation with a natural-orbitalizing variational quantum eigensolving scheme", arXiv:2406.14170, (2024).

[2474] Xiang Deng, Wen Zheng, Xudong Liao, Haoyu Zhou, Yangyang Ge, Jie Zhao, Dong Lan, Xinsheng Tan, Yu Zhang, Shaoxiong Li, and Yang Yu, "Long-Range $ZZ$ Interaction via Resonator-Induced Phase in Superconducting Qubits", arXiv:2408.16617, (2024).

[2475] SeungYeop Baik, Sicheol Sung, and Yo-Sub Han, "A Framework for Quantum Finite-State Languages with Density Mapping", arXiv:2407.02776, (2024).

[2476] Suryansh Srivastava, Arun K. Pati, Samyadeb Bhattacharya, and Indranil Chakrabarty, "Using Quantum Switches to Mitigate Noise in Grover's Search Algorithm", arXiv:2401.05866, (2024).

[2477] Muqing Zheng, Chenxu Liu, Samuel Stein, Xiangyu Li, Johannes Mülmenstädt, Yousu Chen, and Ang Li, "An Early Investigation of the HHL Quantum Linear Solver for Scientific Applications", arXiv:2404.19067, (2024).

[2478] Younes Javanmard, "Integrating discretized von Neumann measurement Protocols with pre-trained matrix product states", arXiv:2407.19348, (2024).

[2479] Miguel Casanova, Kentaro Ohki, and Francesco Ticozzi, "Finding Quantum Codes via Riemannian Optimization", arXiv:2407.08423, (2024).

[2480] A. H. Abbas, Hend Abdel-Ghani, and Ivan S. Maksymov, "Classical and Quantum Physical Reservoir Computing for Onboard Artificial Intelligence Systems: A Perspective", arXiv:2407.04717, (2024).

[2481] Niklas Funcke and Julian Berberich, "Robustness of optimal quantum annealing protocols", arXiv:2408.06782, (2024).

[2482] Dean Brand and Francesco Petruccione, "A Quantum Leaky Integrate-and-Fire Spiking Neuron and Network", arXiv:2407.16398, (2024).

[2483] Ning Bao and Gun Suer, "Bootstrapping shallow circuits", arXiv:2403.14746, (2024).

[2484] Xiao Yuan, "Realizing quantum imaginary time evolution in experiment", Science China Physics, Mechanics, and Astronomy 67 4, 240331 (2024).

[2485] Lian-Hui Yu, Xiao-Yu Li, Geng Chen, Qin-Sheng Zhu, Hui Li, and Guo-Wu Yang, "QUSL: Quantum Unsupervised Image Similarity Learning with Enhanced Performance", arXiv:2404.02028, (2024).

[2486] Gerhard Hellstern, Jörg Hettel, and Bettina Just, "Introducing Quantum Information and Computation to a Broader Audience with MOOCs at OpenHPI", arXiv:2404.07241, (2024).

[2487] Maurizio Palesi, Enrico Russo, Davide Patti, Giuseppe Ascia, and Vincenzo Catania, "Assessing the Role of Communication in Scalable Multi-Core Quantum Architectures", arXiv:2405.16275, (2024).

[2488] Arne Wulff, Boyang Chen, Matthew Steinberg, Yinglu Tang, Matthias Möller, and Sebastian Feld, "Quantum Computing and Tensor Networks for Laminate Design: A Novel Approach to Stacking Sequence Retrieval", arXiv:2402.06455, (2024).

[2489] Martina Zündel, Leonardo Mazza, Léonie Canet, and Anna Minguzzi, "Space-time first-order correlations of an open Bose-Hubbard model with incoherent pump and loss", arXiv:2405.19972, (2024).

[2490] Emmanouil Giortamis, Francisco Romão, Nathaniel Tornow, Dmitry Lugovoy, and Pramod Bhatotia, "Orchestrating Quantum Cloud Environments with Qonductor", arXiv:2408.04312, (2024).

[2491] Emiel Koridon, Felix Frohnert, Eric Prehn, Evert van Nieuwenburg, Jordi Tura, and Stefano Polla, "Learning Density Functionals from Noisy Quantum Data", arXiv:2409.02921, (2024).

[2492] A. De Lorenzis, M. P. Casado, M. P. Estarellas, N. Lo Gullo, T. Lux, F. Plastina, A. Riera, and J. Settino, "Harnessing Quantum Extreme Learning Machines for image classification", arXiv:2409.00998, (2024).

[2493] Alexey Bochkarev, Raoul Heese, Sven Jäger, Philine Schiewe, and Anita Schöbel, "Quantum Computing for Discrete Optimization: A Highlight of Three Technologies", arXiv:2409.01373, (2024).

[2494] Vladimir V. Arsoski, "Multi-controlled single-qubit unitary gates based on the quantum Fourier transform", arXiv:2408.00935, (2024).

[2495] Luning Zhao, Qingfeng Wang, Joshua J. Goings, Kyujin Shin, Woomin Kyoung, Seunghyo Noh, Young Min Rhee, and Kyungmin Kim, "Enhancing the electron pair approximation with measurements on trapped-ion quantum computers", npj Quantum Information 10, 76 (2024).

The above citations are from SAO/NASA ADS (last updated successfully 2024-09-09 03:47:49). The list may be incomplete as not all publishers provide suitable and complete citation data.

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