Shell-model treatment of the β decay of 99Tc

Abstract

In the present paper we treat the second-forbidden non-unique (2nd-nu) ground-state-to-ground-state β- decay 99Tc(9/2+)\,99Ru(5/2+), with a 100\% branching ratio, within the framework of the nuclear shell model (NSM). The energy spectrum of the electrons emitted in this β-decay transition (β-electron spectrum) is sensitive to the wave functions of the involved initial (9/2+) and final (5/2+) nuclear ground states through the many involved nuclear matrix elements (NME). The β-electron spectrum of this transition is potentially indicative of the effective value, g A eff, of the weak axial coupling, g A, of crucial importance for extraction of information on beyond-the-standard-model physics from the results of the present and future rare-events experiments. We describe the β spectral shape of this decay by using a state-of-the-art β-decay formalism and compute the many involved NME using the well established NSM Hamiltonians jj45pnb and glekpn. We have found a strong dependence of the β spectral shape on the value of g A making it a good candidate for determination of the value of g A eff through comparison with the corresponding experimental β spectral shape. We have also found an interesting dependence of the β spectral shape on the value of the so-called small relativistic vector NME, sNME, used to match the computed half-life with the measured one.

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