Dirac Phenomenological Analyses of 1.047 GeV Proton Inelastic Scatterings from 62Ni and 64Ni

Abstract

Unpolarized 1.047 GeV proton inelastic scatterings from Ni isotopes, 62Ni and 64Ni are analyzed phenomenologically employing an optical potential model and the first order collective model in the relativistic Dirac coupled channel formalism. The Dirac equations are reduced to the Schr\"odinger-like second-order differential equations and the effective central and spin-orbit optical potentials are analyzed by considering mass number dependence. The multistep excitation via 2+ state is found to be important for the 4+ state excitation in the ground state rotational band at the proton inelastic scatterings from the Ni isotopes. The calculated deformation parameters for the 2+, the 4+ states of the ground state rotational band and the first 3- state are found to agree pretty well with those obtained in the nonrelativistic calculations.