0ββ and 2ββ nuclear matrix elements, QRPA, and isospin symmetry restoration

Abstract

Within QRPA we achieve partial restoration of the isospin symmetry and hence fulfillment of the requirement that the 2ββ Fermi matrix element M2F vanishes, as it should, unlike in the previous version of the method. This is accomplished by separating the renormalization parameter gpp of the particle-particle proton-neutron interaction into the isovector and isoscalar parts. The isovector parameter gppT=1 need to be chosen to be essentially equal to the pairing constant gpair, so no new parameter is needed. For the 0ββ decay the Fermi matrix element M0F is substantially reduced, while the full matrix element M0 is reduced by ≈ 10%. We argue that this more consistent approach should be used from now on in the proton-neutron QRPA and in analogous methods.