Sensitivity analysis of β-decay half-life predictions for Ge, As, Zr and Mo nuclei within the mapped interacting boson model

Abstract

We analyze parameter sensitivities of the mapped interacting boson model (IBM) and boson-fermion-fermion model (IBFFM) in the description of β-decay properties of the even-mass neutron-deficient Ge and As, and neutron-rich Zr and Mo isotopes. Based on the self-consistent mean-field calculations with a given energy density functional and a pairing interaction, the IBM Hamiltonian for even-even nuclei, single-particle energies, and occupation probabilities for unpaired nucleons, which are necessary building blocks of the IBFFM Hamiltonian and Gamow-Teller and Fermi transition operators, are completely determined. A few coupling constants of the boson-fermion and residual neutron-proton interactions are only phenomenological parameters fitted to reproduce low-energy spectra of odd-mass and odd-odd nuclei. It is found that the calculated 10ft values for the β+ decays 68As68Ge are particularly sensitive to the quadrupole-quadrupole boson interaction strength used for the parent (68As) nucleus. We further incorporate higher-order terms in the one-nucleon transfer operators in the boson system, and find that, while their effects are non-negligible, they do not significantly alter qualitative features of β-decay properties. We report a novel application of the mapped IBM framework to compute β-decay half-lives, and show that the observed trend along isotopic chains are reasonably reproduced.

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