Neutrinoless ββ-decay nuclear matrix elements from two-neutrino ββ-decay data

Abstract

We study two-neutrino (2ββ) and neutrinoless double-β (0ββ) decays in the nuclear shell model and proton-neutron quasiparticle random-phase approximation (pnQRPA) frameworks. Calculating the decay half-life of several dozens of nuclei ranging from calcium to xenon with the shell model, and of ββ emitters with a wide range of proton-neutron pairing strengths in the pnQRPA, we observe good linear correlations between 2ββ- and 0ββ-decay nuclear matrix elements for both methods. We then combine the correlations with measured 2ββ-decay half-lives to predict 0ββ-decay matrix elements with theoretical uncertainties based on our systematic calculations. Our results include two-body currents and the short-range 0ββ-decay operator.

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