0ββ nuclear matrix elements, neutrino potentials and SU(4) symmetry

Abstract

Intimate relation between the Gamow-Teller part of the matrix element M0GT and the 2ββ closure matrix element M2cl is explained and explored. If the corresponding radial dependence C2cl(r) would be known, M0 corresponding to any mechanism responsible for the 0ββ decay can be obtained as a simple integral. However, the M2cl values sensitively depend on the properties of higher lying 1+ states in the intermediate odd-odd nuclei. We show that the β- and β+ amplitudes of such states typically have opposite relative signs, and their contributions reduce severally the M2cl values. Vanishing values of M2cl are signs of a partial restoration of the spin-isospin SU(4) symmetry. We suggest that demanding that M2cl = 0 is a sensible way, within the method of the Quasi-particle Random Phase Approximation (QRPA), of determining the amount of renormalization of isoscalar particle-particle interaction strength gT=0pp. Using such prescription, the matrix elements M0 are evaluated; their values are not very different ( 20\%) from the usual QRPA values when gT=0pp is related to the known 2ββ half-lives.