Novel direct detection constraints on light dark matter
TL;DR: In this paper, the authors derive novel constraints from the inevitable existence of a subdominant, but highly energetic, component of particle dark matter generated through collisions with cosmic rays, which limits the DM-nucleon scattering cross-section to be below the threshold for both spinindependent and spindependent scattering of light DM.
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Abstract: All attempts to directly detect particle dark matter (DM) scattering on nuclei suffer from the partial or total loss of sensitivity for DM masses in the GeV range or below. We derive novel constraints from the inevitable existence of a subdominant, but highly energetic, component of DM generated through collisions with cosmic rays. Subsequent scattering inside conventional DM detectors, as well as neutrino detectors sensitive to nuclear recoils, limits the DM-nucleon scattering cross section to be below ${10}^{\ensuremath{-}31}\text{ }\text{ }{\mathrm{cm}}^{2}$ for both spin-independent and spin-dependent scattering of light DM.
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TL;DR: In this article, a MeV flavor-specific scalar model was proposed to explain the muon g-2 anomaly and proton radius puzzle through the coupling with muon and down-quark simultaneously.
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Dark magnetic dipole property in fermionic absorption by nucleus and electrons
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Peer Review
Snowmass2021 Theory Frontier: Theory Meets the Lab
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