Nonlocality parameters of microscopic optical potentials from Skyrme-based nuclear structure models at low energies

Abstract

We investigate the non-locality parameters β in nucleon-nucleus interactions for 16O , 40Ca , 48Ca , and 208Pb using a microscopic optical potential (MOP) derived from nuclear structure models based on Skyrme self-consistent mean-field calculations at low incident energies. No ad hoc adjusted parameters were employed in the present calculations. The analysis reveals that the non-locality parameter exhibits a clear dependence on the radial position within the nucleus, the incident nucleon energy, and the choice of target nucleus. At incident energies below 30 MeV, the β lies between 0.8 fm and 1.2 fm for all considered targets. For the light nucleus 16O, the non-locality parameter in the interior is smaller than that on the surface, whereas for medium and heavy nuclei ( 40Ca , 48Ca , and 208Pb ), the values are comparable in both regions.