Low-energy limits on heavy Majorana neutrino masses from the neutrinoless double-beta decay and non-unitary neutrino mixing

Abstract

In the type-I seesaw mechanism, both the light Majorana neutrinos (1, 2, 3) and the heavy Majorana neutrinos (N1, ..., Nn) can mediate the neutrinoless double-beta (0ββ) decay. We point out that the contribution of i to this 0ββ process is also dependent on the masses Mk and the mixing parameters Rek of Nk as a direct consequence of the exact seesaw relation, and the effective mass term of i is in most cases dominant over that of Ni. We obtain a new bound |Σ R2ek Mk| < 0.23 eV (or < 0.85 eV as a more conservative limit) at the 2σ level, which is much stronger than |Σ R2ek M-1k| < 5 × 10-8 GeV-1 used in some literature, from current experimental constraints on the 0ββ decay. Taking the minimal type-I seesaw scenario for example, we illustrate the possibility of determining or constraining two heavy Majorana neutrino masses by using more accurate low-energy data on lepton number violation and non-unitarity of neutrino mixing.