A study of neutrinoless double electron capture in 40Ca from the AMoRE experiment

Abstract

The search for neutrinoless double electron capture (0ν2EC) provides a sensitive probe of lepton-number violation and the Majorana nature of neutrinos. We investigate the 0ν2EC decay of 40Ca using cryogenic detectors equipped with metallic magnetic calorimeters in the AMoRE-I experiment. The analysis is based on a physics dataset corresponding to a total exposure of 7.32 kg·yr from thirteen 40Ca100MoO4 crystals. No significant excess is observed, and a lower limit on the half-life is obtained as T0ν1/2 > 1.7 × 1022 yr at 90\% confidence level. An improved sensitivity is expected for the upcoming AMoRE-II experiment. These results demonstrate the potential of CaMoO4 detectors to explore rare decay processes beyond the primary 100Mo 0νββ search program.

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