What if a specific neutrinoless double beta decay is absent

Abstract

We consider the seesaw model with two right-handed neutrinos N1 and N2 which masses are hierarchical, and investigate their contribution to the neutrinoless double beta (0 β β) decay. Although the lepton number is broken by the Majorana masses of right-handed neutrinos, such decay processes can be absent in some cases. We present a possibility where the lighter N1 gives a destructive contribution to that of active neutrinos by choosing the specific mixing elements of N1, while N2 is sufficiently heavy not to contribute to the 0 β β decay. In this case the mixing elements of N1 in the charged current interaction are determined by its mass and the Majorana phase of active neutrinos. We then study the impacts of such a possibility on the direct search for N1. In addition, we discuss the consequence of the case when the 0 β β decay in one specific nucleus is absent.