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Atomic ionization by sterile-to-active neutrino conversion and constraints on dark matter sterile neutrinos with germanium detectors

Abstract

The transition magnetic moment of a sterile neutrino can give rise to its conversion to an active neutrino through radiative decay or nonstandard interaction (NSI) with matter. For sterile neutrinos of keV-mass as dark matter candidates, their decay signals are actively searched for in cosmic x-ray spectra. In this work, we consider the NSI that leads to atomic ionization, which can be detected by direct dark matter experiments. It is found that this inelastic scattering process for a nonrelativistic sterile neutrino has a pronounced enhancement in the differential cross section at energy transfer about half of its mass, manifesting experimentally as peaks in the measurable energy spectra. The enhancement effects gradually smear out as the sterile neutrino becomes relativistic. Using data taken with low-threshold low-background germanium detectors, constraints on sterile neutrino mass and its transition magnetic moment are derived and compared with those from astrophysical observations.Taiwan. Ministry of Science and Technology (Grant No. 102-2112-M-002-013-MY3)Taiwan. Ministry of Science and Technology (Grant No. 103-2112-M-259-003)Taiwan. Ministry of Science and Technology (Grant No. 104-2112-M-259-004-MY3)Taiwan. Ministry of Science and Technology (Grant No. 1042112-M-001-038-MY3)National Taiwan University (Center for Theoretical Sciences)National Taiwan University (Center of Advanced Study in Theoretical Sciences

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This paper was published in DSpace@MIT.

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