Systematic study of two-proton radioactivity half-lives within the two-potential approach with Skyrme-Hartree-Fock

Abstract

In this work, we systematically study the two-proton(2p) radioactivity half-lives using the two-potential approach while the nuclear potential is obtained by using Skyrme-Hartree-Fock approach with the Skyrme effective interaction of SLy8. For true 2p radioactivity(Q2p > 0 and Qp < 0, where the Qp and Q2p are the released energy of the one-proton and two-proton radioactivity), the standard deviation between the experimental half-lives and our theoretical calculations is 0.701. In addition, we extend this model to predict the half-lives of 15 possible 2p radioactivity candidates with Q2p > 0 taken from the evaluated atomic mass table AME2016. The calculated results indicate that a clear linear relationship between the logarithmic 2p radioactivity half-lives log10T1/2 and coulomb parameters [ (Zd0.8+l0.25)Q2p-1/2] considered the effect of orbital angular momentum proposed by Liu et al [Chin. Phys. C 45, 024108 (2021)] is also existed. For comparison, the generalized liquid drop model(GLDM), the effective liquid drop model(ELDM) and Gamow-like model are also used. Our predicted results are consistent with the ones obtained by the other models.