Studies of Neutrino-Nucleus Elastic Scattering with Point-Contact Germanium Detectors at the Kuo-Sheng Reactor Neutrino Laboratory

Abstract

The low energy and intense flux of electron anti-neutrinos from nuclear reactors provide the perfect stage to study elastic neutrino-nucleus scattering (νAel) in the fully coherent regime. We report results from the TEXONO experiment using electro-cooled p-type point-contact Germanium detectors with masses of 523~g and 1434~g at the Kuo-Sheng Reactor Neutrino Laboratory. We report improved constraints on the νAel cross section with a combined exposure of 404(813.7)~kg-days of Reactor ON(OFF) data at an electron-equivalent threshold of 200~eVee. The Lindhard model, in which the quenching factor is parameterized by a single parameter k, is adopted to describe the suppression of ionization yield. At the benchmark value of k=0.162, a limit of ρ<2.0 at 90\% confidence level (CL) is derived, where ρ represents the ratio of the observed to the predicted Standard Model cross section. Moreover the region k>0.205 is excluded at 90\% CL using the SM-predicted νAel rate. A bound on the neutrino magnetic moment from νAel at μν < 5.9 × 10-10~μB at 90\% CL is also derived.