Abstract
In this study, the elastic scattering of He-6 projectile from Sn-120 nucleus has been analyzed in terms of optical model (OM). Microscopic double folding (DF) model has been used to generate the real central part of the OM potential. The imaginary part has been restricted to Woods-Saxon phenomenological form. Skyrme-Hartree-Fock, Symmetrized Fermi and Gaussian-Exponential densities for He-6 nucleus while Hartree-Fock-Bogolyubov (HFB) density of Sn-120 nucleus have been used to construct the real DF potential. For the effective interaction, the widely used M3Y has been adopted in the DF procedure. The results of DF have been compared with both literature experimental data and phenomenological analysis.