Investigation the elastic scattering of isobar nuclei 6Li and 6He by 12C using different nuclear potentials

Abstract

The available experimental data for the elastic scattering of isobar nuclei 6Li and 6He on [Formula: see text]C nuclei have been reanalyzed in a wide energy range of energy from 5.8[Formula: see text]MeV to 600[Formula: see text]MeV using the optical model with Distorted Wave Born Approximation (DWBA), and coupled reaction channel method (CRC) where inelastic scattering and transfer have been involved during calculations. A semi-microscopic potential, namely double-folding cluster model (DFC) has been used to investigate the cluster structure for both projectiles and target which was folded with Distorted Wave Born Approximation (DWBA) as a real part of potential where the imaginary part was taken in Woods–Saxon (WS) shape. The crystal model method has been applied to 6Li, 6He elastically scattered by [Formula: see text]C, and reliable analysis of the considered experimental data has been obtained.