A combined limit for neutrinoless double-beta decay

TL;DR

This paper combines data from five neutrinoless double-beta decay experiments to establish more stringent limits on the Majorana neutrino mass, considering different nuclear matrix element models.

Contribution

It provides a comprehensive combined analysis of multiple experiments, improving the limits on neutrino mass and accounting for various nuclear matrix element calculations.

Findings

Combined limits on Majorana neutrino mass range from 130-310 meV.

Up to 25% improvement over individual experiment limits.

Analysis covers five major neutrinoless double-beta decay experiments.

Abstract

The search for neutrinoless double-beta decay is important in determining the Majorana nature of the neutrino, and also in establishing if lepton number is violated. In this work, we combine the published data from five independent neutrinoless double-beta decay experiments: CUORICINO, EXO, GERDA, KamLAND-Zen and NEMO-3. As these experiments use different isotope sources, the relative signal normalisation between them depends on the Nuclear Matrix Element (NME) calculations used. The combined limits for the Majorana neutrino mass for 5 different NME models range from 130-310 meV. The combined mass limits can offer an improvement over the individual experiments of up to 25%, depending on the NME model.