Interpretations of the DAMPE electron data
Q Yuan, L Feng, PF Yin, YZ Fan, XJ Bi, MY Cui… - arXiv preprint arXiv …, 2017 - arxiv.org
Q Yuan, L Feng, PF Yin, YZ Fan, XJ Bi, MY Cui, TK Dong, YQ Guo, K Fang, HB Hu, X Huang…
arXiv preprint arXiv:1711.10989, 2017•arxiv.orgThe DArk Matter Particle Explorer (DAMPE), a high energy cosmic ray and $\gamma $-ray
detector in space, has recently reported the new measurement of the total electron plus
positron flux between 25 GeV and 4.6 TeV. A spectral softening at $\sim0. 9$ TeV and a
tentative peak at $\sim1. 4$ TeV have been reported. We study the physical implications of
the DAMPE data in this work. The presence of the spectral break significantly tightens the
constraints on the model parameters to explain the electron/positron excesses. The spectral …
detector in space, has recently reported the new measurement of the total electron plus
positron flux between 25 GeV and 4.6 TeV. A spectral softening at $\sim0. 9$ TeV and a
tentative peak at $\sim1. 4$ TeV have been reported. We study the physical implications of
the DAMPE data in this work. The presence of the spectral break significantly tightens the
constraints on the model parameters to explain the electron/positron excesses. The spectral …
The DArk Matter Particle Explorer (DAMPE), a high energy cosmic ray and -ray detector in space, has recently reported the new measurement of the total electron plus positron flux between 25 GeV and 4.6 TeV. A spectral softening at TeV and a tentative peak at TeV have been reported. We study the physical implications of the DAMPE data in this work. The presence of the spectral break significantly tightens the constraints on the model parameters to explain the electron/positron excesses. The spectral softening can either be explained by the maximum acceleration limits of electrons by astrophysical sources, or a breakdown of the common assumption of continuous distribution of electron sources at TeV energies in space and time. The tentive peak at TeV implies local sources of electrons/positrons with quasi-monochromatic injection spectrum. We find that the cold, ultra-relativistic winds from pulsars may give rise to such a structure. The pulsar is requird to be middle-aged, relatively slowly-rotated, mildly magnetized, and isolated in a density cavity. The annihilation of DM particles ( TeV) into pairs in a nearby clump or an over-density region may also explain the data. In the DM scenario, the inferred clump mass (or density enhancement) is about M (or times of the canonical local density) assuming a thermal production cross section, which is relatively extreme compared with the expectation from numerical simulations. A moderate enhancement of the annihilation cross section via, e.g., the Sommerfeld mechanism or non-thermal production, is thus needed.
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