Revisiting the Fermionic Dark Matter Absorption on Electron Target
Abstract
We perform a systematic study of the fermionic DM absorption interactions on electron target in the context of effective field theory. The fermionic DM absorption is not just sensitive to sub-MeV DM with efficient energy release, but also gives a unique signature with clear peak in the electron recoil spectrum whose shape is largely determined by the atomic effects. Fitting with the Xenon1T and PandaX-II data prefers DM mass at keV and 105keV, respectively, while the cut-off scale is probed up to around 1TeV. The DM overproduction in the early Universe, the invisible decay effect on the cosmological evolution, and the astrophysical X(gamma)-ray from the DM visible decays are thoroughly explored to give up-to-date constraints. With stringent bounds on the tensor and pseudo-scalar operators, the other fermionic DM operators are of particular interest at tonne-scale direct detection experiments such as PandaX-4T, XENONnT, and LZ.
Cite
@article{arxiv.2201.11497,
title = {Revisiting the Fermionic Dark Matter Absorption on Electron Target},
author = {Shao-Feng Ge and Xiao-Gang He and Xiao-Dong Ma and Jie Sheng},
journal= {arXiv preprint arXiv:2201.11497},
year = {2022}
}
Comments
30 pages, 7 figures, and 1 table