Search for Neutrinoless β+EC Decay of 120Te with CUORE

Abstract

CUORE is a large scale cryogenic experiment searching for neutrinoless double beta decay (0ββ) in 130Te. The CUORE detector is made of natural tellurium, providing the possibility of rare event searches on isotopes other than 130Te. In this work we describe a search for neutrinoless positron emitting electron capture (0β+EC) decay in 120Te with a total TeO2 exposure of 355.7 kg · yr, corresponding to 0.2405 kg · yr of 120Te. Albeit 0 ββ with two final state electrons represents the most promising channel, the emission of a positron and two 511-keV γs make 0β+EC decay signature extremely clear. To fully exploit the potential offered by the detector modularity we include events with different topology and perform a simultaneous fit of five selected signal signatures. Using blinded data we extract a median exclusion sensitivity of 3.4 · 1022 yr at 90% Credibility Interval (C.I.). After unblinding we find no evidence of 0β+EC signal and set a 90% C.I. Bayesian lower limit of 2.9 · 1022 yr on 120Te half-life. This result improves by an order of magnitude the existing limit from the combined analysis of CUORE-0 and Cuoricino.