Results on MeV-scale dark matter from a gram-scale cryogenic calorimeter operated above ground

Abstract

Models for light dark matter particles with masses below 1 GeV/c2 are a natural and well-motivated alternative to so-far unobserved weakly interacting massive particles. Gram-scale cryogenic calorimeters provide the required detector performance to detect these particles and extend the direct dark matter search program of CRESST. A prototype 0.5 g sapphire detector developed for the -cleus experiment has achieved an energy threshold of Eth=(19.7 0.9) eV, which is one order of magnitude lower than previous results and independent of the type of particle interaction. The result presented here is obtained in a setup above ground without significant shielding against ambient and cosmogenic radiation. Although operated in a high-background environment, the detector probes a new range of light-mass dark matter particles previously not accessible by direct searches. We report the first limit on the spin-independent dark matter particle-nucleon cross section for masses between 140 MeV/c2 and 500 MeV/c2.