Nuclear matrix element of 2νββ decay of 76Ge: roles of high-lying states and two-body currents

Abstract

We present a microscopic analysis of the nuclear matrix element (NME) of the two-neutrino double-β (2νββ) decay for open-shell heavy deformed nuclei, taking into account the fact that nuclear level density increases rapidly with excitation energy as well as the contribution of two-body current (2BC). Taking 76Ge → 76Se decay as an example, we found that due to the rapid increase of the level density of the intermediate nucleus 76As with excitation energy En, the single-β Gamow-Teller (GT) matrix elements become highly fragmented with very small magnitude, and exhibit seemingly random sign patterns at high En region. This leads to an effective cancellation at high En region in calculating the 2νββ NME which then turns out to converge at En 5 MeV, indicating that the contribution of high-lying states of the intermediate nucleus to 2νββ NME is negligible. Besides, the 2BC in the transition operator is found to contribute 10\% quenching to the 2νββ-decay NME of 76Ge.