In this study,we perform a microscopic study of proton decay half-lives in neutron-deficient nuclei using the Hartree-Fock-Bogolyubov(HFB)approach with the Gogny D1S effective interaction.Proton emission halflives fro...In this study,we perform a microscopic study of proton decay half-lives in neutron-deficient nuclei using the Hartree-Fock-Bogolyubov(HFB)approach with the Gogny D1S effective interaction.Proton emission halflives from ground and isomeric states are computed by employing a single-folding potential constructed from a realistic M3Y-Paris nucleon-nucleon interaction.Deformed density distributions of daughter nuclei are calculated selfconsistently within the same HFB framework.The resulting decay half-lives are systematically compared with recent experimental measurements and other theoretical models for evaluating the accuracy and predictive capacity of this fully microscopic methodology in describing proton radioactivity near the proton dripline.展开更多
文摘In this study,we perform a microscopic study of proton decay half-lives in neutron-deficient nuclei using the Hartree-Fock-Bogolyubov(HFB)approach with the Gogny D1S effective interaction.Proton emission halflives from ground and isomeric states are computed by employing a single-folding potential constructed from a realistic M3Y-Paris nucleon-nucleon interaction.Deformed density distributions of daughter nuclei are calculated selfconsistently within the same HFB framework.The resulting decay half-lives are systematically compared with recent experimental measurements and other theoretical models for evaluating the accuracy and predictive capacity of this fully microscopic methodology in describing proton radioactivity near the proton dripline.
