Measurement of Ionization Produced by 254 eVnr Nuclear Recoils in Germanium
Alexander Kavner, University of Michigan
The ionization or scintillation produced by low-energy nuclear recoils is the primary signature of dark matter. Despite the urgency of dark matter detection and the recent measurements of coherent elastic neutrino-nucleus scattering, detector response is still not well characterized across a variety of materials in the keVnr and sub-keVnr regime. We have re-performed a measurement of the ionization produced by monoenergetic 254~eVnr nuclear recoils in Ge with improved digital electronics and event tagging scheme. Our results indicate an ionization yield of 66 eVee corresponding to a quenching factor of 25%, greater than the 14% predicted by Lindhard Model. This quenching enhancement would greatly improve the sensitivity of high-purity Ge detectors for both dark matter detection and measurement of neutrinos via coherent scattering.