Phys. Rev. Research 6, L032050 (2024) – Published 3 September 2024
An electric field is shown to induce and control the thermal Hall effect in the Bose-Einstein condensed phase of quantum dimer magnets CuCl ( = Tl, K), revealing a method to overcome lattice geometry constraints through the interplay of ferroelectricity and magnetism.
Pyeongjae Park, G. Sala, Daniel M. Pajerowski, Andrew F. May, James A. Kolopus, D. Dahlbom, Matthew B. Stone, Gábor B. Halász, and Andrew D. Christianson
Phys. Rev. Research 6, 033184 (2024) – Published 19 August 2024
A new approach utilizing thermal fluctuations to investigate the spin dynamics of quantum magnets is introduced. It successfully identifies the spin Hamiltonian of a quantum antiferromagnet and elucidates the temperature-induced dissipation of quantum spin dynamics, which are challenging to assess using conventional spin-wave theories.
Phys. Rev. Research 6, L032035 (2024) – Published 12 August 2024
Two preasymptotic space-filling curves can lead to Moiré patterns when shifted or twisted against each other. If the curves are taken to be electric conductors, inductive coupling shows local extrema at the Moiré points, and zero coupling is possible, too.
S. E. Nikitin, Tao Xie, A. Gazizulina, B. Ouladdiaf, J. A. Rodríguez Velamazán, I. F. Díaz-Ortega, H. Nojiri, L. M. Anovitz, A. M. dos Santos, O. Prokhnenko, and A. Podlesnyak
Phys. Rev. Research 6, 039001 (2024) – Published 29 July 2024
M. T. Littlehales, S. H. Moody, P. J. Bereciartua, D. A. Mayoh, Z. B. Parkin, T. J. Blundell, E. Unsworth, S. Francoual, G. Balakrishnan, D. Alba Venero, and P. D. Hatton
Phys. Rev. Research 6, L032015 (2024) – Published 19 July 2024
The incommensurate magnetic spin textures within centrosymmetric single-crystal EuGaAl are studied using resonant elastic x-ray scattering with full linear polarization analysis under no applied magnetic field. The findings unambiguously demonstrate a transition from a transverse spin density wave into a noncollinear elliptically modulated helical ground state with a large coexistence regime.
Marc Rovirola, M. Waqas Khaliq, Travis Gustafson, Fiona Sosa-Barth, Blai Casals, Joan Manel Hernàndez, Sandra Ruiz-Gómez, Miguel Angel Niño, Lucía Aballe, Alberto Hernández-Mínguez, Michael Foerster, and Ferran Macià
Phys. Rev. Research 6, 023285 (2024) – Published 17 June 2024
J. Nagl, D. Flavián, S. Hayashida, K. Yu. Povarov, M. Yan, N. Murai, S. Ohira-Kawamura, G. Simutis, T. J. Hicken, H. Luetkens, C. Baines, A. Hauspurg, B. V. Schwarze, F. Husstedt, V. Pomjakushin, T. Fennell, Z. Yan, S. Gvasaliya, and A. Zheludev
Phys. Rev. Research 6, 023267 (2024) – Published 10 June 2024
M. Stekiel, P. Čermák, C. Franz, M. Meven, D. Legut, W. Simeth, U. B. Hansen, B. Fåk, S. Weber, R. Schönmann, V. Kumar, K. Nemkovski, H. Deng, A. Bauer, C. Pfleiderer, and A. Schneidewind
Phys. Rev. Research 6, 023117 (2024) – Published 2 May 2024
Mikhail Padniuk, Emmanuel Klinger, Grzegorz Łukasiewicz, Daniel Gavilan-Martin, Tianhao Liu, Szymon Pustelny, Derek F. Jackson Kimball, Dmitry Budker, and Arne Wickenbrock
Phys. Rev. Research 6, 013339 (2024) – Published 29 March 2024
Phys. Rev. Research 6, L012058 (2024) – Published 13 March 2024
Recent experiments revealing magnetic memory in the superconductor 4-TaS call for a theoretical explanation of spontaneous vortex creation without spontaneous time-reversal symmetry breaking. This mean-field parton theory offers such an explanation in terms of vortices in the slave boson condensate, thereby introducing the notion of a type-II heavy Fermi liquid.