Double beta decay: A problem of particle, nuclear and atomic physics

Abstract

A brief review of recent progress in the field of double beta decay is presented. Different aspects from particle, nuclear and atomic physics of both two-neutrino ( 2 ν β β ) and neutrinoless ( 0 ν β β ) modes of the double β decay are discussed. It is argued that the R-parity violating supersymmetry ( ⁄ R p SUSY) contributes to the 0 ν β β -decay predominantly via charged pion-exchange between decaying nucleons. Further, a problem of reliable determination of the 0 ν β β -decay nuclear matrix elements (NMEs) is addressed. It is manifested that the uncertainty associated with the calculation of the 0 ν β β -decay NMEs can be diminished by suitably chosen nuclear probes. A new possibility for the study of lepton number non-conservation is proposed, namely oscillations plus deexcitations of neutral atoms. A phenomenological analysis of this process leads to a resonant enhancement of the neutrinoless double electron capture, that has a Breit–Wigner form.