Journal article
Indirect detection of low mass dark matter in direct detection experiments with inelastic scattering
NF Bell, JB Dent, B Dutta, J Kumar, JL Newstead
Physical Review D | Published : 2022
Abstract
We revisit the detection of luminous dark matter in direct detection experiments. In this scenario, dark matter scatters endothermically to produce an excited state, which decays to produce a photon. We explore ways in which the electron recoil signal from the decay photon can be differentiated from other potential electron recoil signals with a narrow spectral shape. We find that larger volume/exposure xenon detectors will be unable to differentiate the signal origin without significant improvements in detector energy resolution of around an order of magnitude. We also explore what can be learned about a generic luminous dark matter signal with a higher resolution detector. Motivated by the..
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Awarded by National Science Foundation
Funding Acknowledgements
The work of B. D. is supported in part by the DOE Grant No. DE-SC0010813. The work of J. K. is supported in part by DOE Grant No. DE-SC0010504. The work of J. L. N. and N. F. B. is supported by the Australian Research Council through the ARC Centre of Excellence for Dark Matter Particle Physics, No. CE200100008. J. B. D. acknowledges support from the National Science Foundation under Grant No. PHY-2112799.