On neutrinoless double beta decay in the

Abstract

We consider the neutrinoless double beta (0 β β) decay in the so-called , in which three right-handed neutrinos with masses below the electroweak scale are additionally introduced to the Standard Model. In this model there appear three heavy neutral leptons N1, N2, and N3 corresponding to right-handed neutrinos. It has been known that the lightest one N1 with keV mass, which is a candidate for dark matter, gives a negligible contribution to the 0 β β decay. By contrast, the heavier ones N2 and N3, which are responsible to the seesaw mechanism of neutrino masses and baryogenesis, give the destructive contribution (compared with one from active neutrinos). This is because their mass degeneracy at high precision has been assumed, which is expected by analytical studies of baryogengesis. In this analysis, we find that the effective mass of the 0 β β decay becomes larger than one from active neutrinos due to the N2 and N3 constructive contribution when the mass difference becomes larger and the mass ordering of active neutrinos is inverted. Such a possibility will be explored by the current and near future experiments of the 0 β β decay.