Neutrinoless double-beta decay in the neutrino-extended Standard Model

Abstract

We investigate neutrinoless double-beta decay (0ββ) in the minimal extension of the standard model of particle physics, the , where gauge-singlet right-handed neutrinos give rise to Dirac and Majorana neutrino mass terms. We focus on the associated sterile neutrinos and argue that the usual evaluation of their contributions to 0ββ, based on mass-dependent nuclear matrix elements, is missing important contributions from neutrinos with ultrasoft and hard momenta. We identify the hadronic and nuclear matrix elements that enter the new contributions, and calculate all relevant nuclear matrix elements for 136Xe using the nuclear shell model. Finally, we illustrate the impact on 0ββ rates in specific neutrino mass models and show that the new contributions significantly alter the 0ββ rate in most parts of the parameter space.