Spin-tensor decomposition of nuclear transition matrix elements for neutrinoless double-β decay of 76Ge and 82Se nuclei within PHFB approach

Abstract

Employing the PHFB model, nuclear transition matrix elements M( K) for the neutrinoless double-β- decay of \ 76Ge and 82Se isotopes are calculated within mechanisms involving light as well as heavy Majorana neutrinos, and classical Majorons by considering the spin-tensor decomposition of realistic KUO and empirical JUN45 effective two-body interaction. It is noticed that the effects due to the SRC on NTMEs M( 0 ) and M( 0N) due to the exchange of light and heavy Majorana neutrinos, respectively, is maximally incorporated by the central part of the effective two-body interaction, which varies by a small amount with the inclusion of spin-orbit and tensor components. The maximum uncertainty in the average NTMEs M(0) and M(0N) turns out to be about 10\% and 37\%, respectively.