Relation between the 0ββ and 2ββ nuclear matrix elements revisited

Abstract

We show that the dominant Gamow-Teller part, M0GT, of the nuclear matrix element governing the neutrinoless ββ decay is related to the matrix element M2cl governing the allowed two-neutrino ββ decay. That relation is revealed when these matrix elements are expressed as functions of the relative distance r between the pair of neutrons that are transformed into a pair of protons in the ββ decay. Analyzing this relation allows us to understand the contrasting behavior of these matrix elements when A and Z is changed; while M0GT changes slowly and smoothly, M2 has pronounced shell effects. We also discuss the possibility of phenomenological determination of the M2cl and from them of the M0GT values from the experimental study of the β strength functions.