Origin of a sensitive dependence of calculated ββ-decay amplitudes on the particle-particle residual interaction

Abstract

In the present work the sensitivity of the QRPA calculation results to a realistic residual interaction is analyzed in the framework of the approach of Refs. Rum98,Rodin05. Both Gamow-Teller (GT) and Fermi (F) -decay amplitudes M2, along with the corresponding energy-weighted sum rules S, are calculated. General expressions relating S to a realistic residual particle-particle interaction are derived, which show a pronounced sensitivity of S to the singlet-channel interaction in the case of F transitions, and to the triplet-channel interaction in the case of GT transitions. Decompositions of M2, as well as the monopole transition contributions to M0, are obtained by the method of Refs. Rum98,Rodin05. It is shown that in most of the cases almost the whole dependence of M2 and M0 on the particle-particle renormalization parameter gpp is accounted for by the gpp-dependence of the corresponding sum rules S. Thus, the gpp-sensitivity of calculated M2 and M0 is unavoidable since it is dictated by the generic structure of the ββ amplitudes. Finally, a better isospin-consistent way of a renormalization of the realistic residual particle-particle interaction to use in QRPA calculations is suggested.