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Theoretical calculations on the half-lives of spontaneous one-proton radioactivity

WANG Hanlin WANG Zhen REN Zhongzhou

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Theoretical calculations on the half-lives of spontaneous one-proton radioactivity

WANG Hanlin, WANG Zhen, REN Zhongzhou
Acta Phys. Sin.,
doi: 10.7498/aps.75.20251244
cstr: 32037.14.aps.75.20251244
Article Text (iFLYTEK Translation)
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  • Abstract

    The study of unstable nuclei beyond the nucleon drip line is an important method to study the nuclear interaction and structure in the extremely neutron- or proton-rich system, and various nuclides beyond the proton drip line mainly decay by spontaneous one-proton emission. Using the deformed Woods-Saxon potential, spin-orbit potential and the expanded Coulomb potential to construct the daughter-proton potential, based on the quantum tunneling model and the microscopic Gamow state theory, the half-lives data of various proton emitters are systematically calculated. By using nuclear data from different source and comparing to experiments, the dependence of proton emission on decay energy and spectroscopic factors is evaluated. Additionally, based on previous observations, the half-life of the possibly lighter proton emitter in the fpg-shell below has been theoretically predicted. Our results are compiled into a comprehensive dataset of half-lives for both experimentally confirmed emitters (50 < Z < 84) and theoretically predicted emitters (30 < Z < 50), providing a useful reference for future experimental investigations related to the proton drip line. The datasets presented in this paper, including our results of calculation, are openly available at https://www.doi.org/10.57760/sciencedb.27551 (Please use the private access link https://www.scidb.cn/s/zQzA3e to access the dataset during the peer review process).
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