Theoretical Calculation of The Binding And Excitation Energies For ðð¢ ðŸðŸ– ðŸ“🖠30 Using Shell Model And Perturbation Theory

Abstract

    A theoretical calculation of the binding and excitation energies have been used at low – lying energies based on shell model and quantum theory. In this model, we evaluated the energies under assume Ni 28 56 30 as inert core with two nucleon extra, nucleons in the  2P3/2 ,  1f 5/2  and 2P1/2  configuration. Modified Surface Delta Interaction (MSDI) and Reid's Potential (RP) theory for two body matrix elements are evaluated by using a Matlab program to calculate the energies of experimental and Reid single particle energies. Our results of the theoretical calculation have been compared with the experimental results, which show no good agreement with the experiment but have a good agreement with the theoretical studies of Non Zero Pairing Shell Model (NZPSM) and Energy Spectra Method (ESM).