Introduction-Nuclei near and beyond the proton drip line represent a fascinating frontier in the nuclear landscape.Proton-rich nuclei exhibit intriguing phenomena,such as the Thomas-Ehrman shift and proton-halo struct...Introduction-Nuclei near and beyond the proton drip line represent a fascinating frontier in the nuclear landscape.Proton-rich nuclei exhibit intriguing phenomena,such as the Thomas-Ehrman shift and proton-halo structure.Beyond the proton dripline,nuclei become unbound,allowing pro-tons to be emitted and giving rise to novel radioactive decay modes.Single-proton radioactivity,a process in which some nuclei with an odd number of protons(Z)decay by ejecting a proton,was discovered several decades ago and has been extensively studied[1,2].展开更多
文摘Introduction-Nuclei near and beyond the proton drip line represent a fascinating frontier in the nuclear landscape.Proton-rich nuclei exhibit intriguing phenomena,such as the Thomas-Ehrman shift and proton-halo structure.Beyond the proton dripline,nuclei become unbound,allowing pro-tons to be emitted and giving rise to novel radioactive decay modes.Single-proton radioactivity,a process in which some nuclei with an odd number of protons(Z)decay by ejecting a proton,was discovered several decades ago and has been extensively studied[1,2].
