Theoretical Studies of Rare-Earth Nuclei leading to 50Sn-Daughter Products and the Associated Shell Effects

Abstract

Cluster decays of rare-earth nuclei are studied with a view to look for neutron magic shells for the 50Sn nucleus as the daughter product always. The 100Sn and 132Sn radioactivities are studied to find the most probable cluster decays and the possibility, if any, of new neutron shells. For a wide range of parent nuclei considered here (from Ba to Pt) 12C from 112Ba and 78Ni from 210Pt parent are predicted to be the most probable clusters (minimum decay half-life) referring to 100Sn and 132Sn daughters, respectively. Also, 22Mg decay of 122Sm is indicated at the second best possibilty for 100Sn-daughter decay. In addition to these well known magic shells (Z=50, N=50 and 82), a new magic shell at Z=50, N=66 (116Sn daughter) is indicated for the 64Ni decay from 180Pt parent.