Rare multi-nucleon decays with the full data sets of the Majorana Demonstrator

Abstract

The Majorana Demonstrator was an ultra-low-background experiment designed for neutrinoless double-beta decay (0ββ) investigation in 76Ge. Located at the Sanford Underground Research Facility in Lead, South Dakota, the Demonstrator utilized modular high-purity Ge detector arrays within shielded vacuum cryostats, operating deep underground. The arrays, with a capacity of up to 40.4 kg (27.2 kg enriched to 88\% in 76Ge), have accumulated the full data set, totaling 64.5 kg yr of enriched active exposure and 27.4 kg yr of exposure for natural detectors. Our updated search improves previously explored three-nucleon decay modes in Ge isotopes, setting new partial lifetime limits of 1.83×1026 years (90\% confidence level) for 76Ge(ppp) → 73Cu e+π+π+ and 76Ge(ppn) → 73Zn e+π+. The partial lifetime limit for the fully inclusive tri-proton decay mode of 76Ge is found to be 2.1×1025 yr. Furthermore, we have updated limits for corresponding multi-nucleon decays.

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