Evidence for neutron-induced γ-ray emissions in the vicinity of the Q value of 76Ge 0ββ decay

Abstract

Neutrinoless double-beta decay of nuclei represents one of the most promising methods for uncovering physics beyond the Standard Model. In this context, 76Ge stands out as a particularly attractive candidate, as it can serve as an intrinsic component in semiconductor detectors. If the neutrinoless process occurs in 76Ge, its signature would appear as a distinct peak at the Q value of 2039 keV. A neutron activation measurement was performed on a germanium sample isotopically enriched in 76Ge at the DT neutron generator of TU Dresden. The measurement confirmed the presence of γ rays with energies of 2033.10.5 keV, 2035.50.4 keV, and 2040.220.26 keV originating from the decays of 74Ga and 76Ga. These γ rays lie in close proximity to the expected neutrinoless double-beta decay signal of 76Ge.

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