Accounting for the stochastic fraction of spins that relax even when thermal diffusion is fast releases Zeeman energy that lowers the avalanche threshold in SMM dark matter detectors.
Dark-Photon Search using Data from CRESST-II Phase 2
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abstract
Identifying the nature and origin of dark matter is one of the major challenges for modern astro and particle physics. Direct dark-matter searches aim at an observation of dark-matter particles interacting within detectors. The focus of several such searches is on interactions with nuclei as provided e.g. by Weakly Interacting Massive Particles. However, there is a variety of dark-matter candidates favoring interactions with electrons rather than with nuclei. One example are dark photons, i.e., long-lived vector particles with a kinetic mixing to standard-model photons. In this work we present constraints on this kinetic mixing based on data from CRESST-II Phase 2 corresponding to an exposure before cuts of 52\,kg-days. These constraints improve the existing ones for dark-photon masses between 0.3 and 0.7\,keV/c$^2$.
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hep-ph 1years
2026 1verdicts
UNVERDICTED 1representative citing papers
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Refined Sensitivity Estimates for Single-Molecule Magnet Dark Matter Detectors
Accounting for the stochastic fraction of spins that relax even when thermal diffusion is fast releases Zeeman energy that lowers the avalanche threshold in SMM dark matter detectors.