Half-lives of α decay from natural nuclides and from superheavy elements

Abstract

Recently, experimental researches on the α decay with long lifetime are one of hot topics in the contemporary nuclear physics [e.g. N. Kinoshita et al. (2012) and J. W. Beeman et al. (2012) ]. In this study, we have systematically investigated the extremely long-lived α-decaying nuclei within a generalized density-dependent cluster model involving the experimental nuclear charge radii. In detail, the important density distribution of daughter nuclei is deduced from the corresponding experimental charge radii, leading to an improved α-core potential in the quantum tunneling calculation of α-decay width. Besides the excellent agreement between theory and experiment, predictions on half-lives of possible candidates for natural α emitters are made for future experimental detections. In addition, the recently confirmed α-decay chain from 294117 is well described, including the attractive long-lived α-decaying 270Db, i.e., a positive step towards the "island of stability" in the superheavy mass region.