α-decay half-lives and α-cluster preformation factors of nuclei around N=Z line

Abstract

In this work, a microscopic effective nucleon-nucleon interaction based on the Dirac-Brueckner-Hartree-Fock G matrix starting from a bare nucleon-nucleon interaction is used to explore the α-decay half-lives of the nuclei near N=Z line. Specifically, the α-nucleus potential is constructed by doubly folding the effective nucleon-nucleon interaction with respect to the density distributions of both the α-cluster and daughter nucleus. Moreover, the α-cluster preformation factor is extracted by a cluster formation model. It is shown that the calculated half-lives can reproduce the experimental data well. Then, the α-decay half-lives that are experimentally unavailable for the nuclei around N=Z are predicted, which are helpful for searching for the new candidates of α-decay in future experiments. In addition, by analyzing the proton-neutron correlation energy and two protons-two neutrons correlation energy of Z=52 and Z=54 isotopes, the α-cluster preformation factor evolution with N is explained. Furthermore, it is found that the two protons-two neutrons interaction plays more important role in α-cluster preformation than the proton-neutron interaction. Meanwhile, proton-neutron interaction results in the odd-even effect of the α-cluster preformation factor.

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