Second-forbidden nonunique β- decays of 59,60Fe: Possible candidates for gA sensitive electron spectral-shape measurements

Abstract

In this work, we present a theoretical study of the electron spectral shapes for the second-forbidden nonunique β--decay transitions 59Fe(3/2-)\,59Co(7/2-) and 60Fe(0+)\,60Co(2+) in the framework of the nuclear shell model. We have computed the involved wave functions by carrying out a complete 0ω calculation in the full fp model space using the KB3G and GXPF1A effective interactions. When compared with the available data, these interactions predict the low-energy spectra and electromagnetic properties of the involved nuclei quite successfully. This success paves the way for the computations of the β-decay properties, and comparison with the available data. We have computed the electron spectral shapes of the mentioned decay transitions as functions of the value of the weak axial coupling g A. By comparing these computed shapes with the measured spectral shapes allows then to extract the effective value of g A for these decay transitions. This procedure, coined the spectrum-shape method (SSM) in several earlier studies, complements the method of determining the value of g A by reproducing the (partial) half-lives of decay transitions. Here we have enhanced the original SSM by constraining the value of the relativistic vector matrix element, VM(0)KK-11, using the conserved vector-current hypothesis (CVC) as a starting point. We hope that this finding would be a strong incentive to measure the spectral shapes in the future.

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