Extracting Majorana Properties in the Throat of Neutrinoless Double Beta Decay

Abstract

Assuming that neutrinos are Majorana particles, we explore what information can be inferred from future strong limits (i.e. non-observation) for neutrinoless double beta decay. Specifically we consider the case where the mass hierarchy is normal and the different contributions to the effective mass m ee partly cancel. We discuss how this fixes the two Majorana CP phases simultaneously from the Majorana Triangle and how it limits the lightest neutrino mass m1 within a narrow window. The two Majorana CP phases are in this case even better determined than in the usual case for larger m ee. We show that the uncertainty in these predictions can be significantly reduced by the complementary measurement of reactor neutrino experiments, especially the medium baseline version JUNO/RENO-50. We also estimate the necessary precision on m ee to infer non-trivial Majorana CP phases and the upper limit m ee 1\,meV sets a target for the design of future neutrinoless double beta decay experiments.