Effect of tensor force on lowering of 5/2- level in heavier Cu isotopes

Abstract

The inversion of 3/2- and 5/2- levels in heavier Cu isotopes is one of the most visible example of shell-evolution, caused by the strong monopole attraction between the nucleons occupying the orbitals π 0f5/2 and 0g9/2. The tensor part of the nucleon-nucleon interaction is expected to be the driving force behind this monopole migration. In shell model framework, usually spin-tensor decomposition is used to get the information of individual force components to the shell evolution, however, in the present scenario, this method can not apply on pfg model space due to the missing spin-orbit partners 0f7/2 and 0g7/2. Therefore, we have analytically obtained the tensor force two-body matrix elements (TBMEs) for this model space using Yukawa potential, and subtract it from effective interaction jj44b . The interaction without tensor part, named as jj44a, have been used for calculation of Ni, Zn, Ge and Cu isotopes with various physics viewpoints. In most of the cases, the theoretical results are in good agreement with the experiment only when tensor force is included to the interaction jj44a.