Determination of neutrino mass ordering in future 76Ge-based neutrinoless double-beta decay experiments

Abstract

Motivated by recent intensive experimental efforts on searching for neutrinoless double-beta decays, we perform a detailed analysis of the physics potential of the experiments based on 76Ge. Assuming no signals, current and future experiments could place a 90\% lower limit on the half life T01/2 4× 1026~ yr and T01/2 7× 1027~ yr, respectively. Then, how to report an evidence for neutrinoless double-beta decays is addressed by following the Bayesian statistical approach. For the first time, we present a quantitative description of experimental power to distinguish between normal and inverted neutrino mass orderings. Taking an exposure of 104~ kg· yr and a background rate of 10-4~ counts/( keV· kg· yr), we find that a moderate evidence for normal neutrino mass ordering (i.e., with a Bayes factor B given by ( B) 2.5 or a probability about 92.3\% according to the Jeffreys scale) can be achieved if the true value of effective neutrino mass mββ turns out to be below 0.01~ eV.