Phenomenology of Vanishing Effective Majorana Mass with a Sterile Neutrino under Cosmological and JUNO Constraints

Abstract

In the present work we investigate the phenomenological implications of a vanishing effective Majorana neutrino mass within a 3+1 neutrino framework adding a eV-scale sterile neutrino beside three active neutrino states in light of latest cosmology driven bounds on sum of neutrino masses (Σimi). We explore the parameter space where the destructive interference between active and sterile states leads to vanishing amplitude, Mee, of neutrinoless double beta (0ββ) decay. The allowed parameter space has been identified and predictions have been obtained taking into account the latest Planck and DESI+CMB bound on Σimi. We find that these bounds restrict the sterile mixing angle θ14 and the lightest active neutrino mass. Furthermore, we incorporate the refined precision data from JUNO experiment regarding solar oscillation parameters (θ12, m212). We find that the sterile neutrino parameters like θ14 may not be sensitive to the JUNO precision measurements as the constraint imposed by precise θ12 is washed out by new cancellations driven through additional CP violating phases leading to vanishing |Mee|.