Semi-microscopic Analysis of 20Ne +130Te Elastic and Inelastic Scattering at 15.3A MeV

The new measured data of elastic and inelastic 20Ne+130Te scattering at energy 15.3A MeV have been analyzed in framework of the nuclear optical potential. Three types of semi-microscopic potentials are used; the real is calculated by a double folding model in conjunction with the conventional phenomenological Woods-Saxon (WS) potential for the imaginary part. Two real cluster models were constructed using the cluster structure of 20Ne nucleus as 5 and +16O. The real of the third potential was generated using a CDM3Y6 interaction that employed for comparison. Three excited energies to the superposition of the projectile and target states, ground-state (Quasi), 1,6 and 2.5 MeV are investigated by deformed potentials. The contributions of these states were calculated using a one-step distorted wave Born approximation (DWBA) and coupled Channels (CCs) approaches. Successful calculations and results using semi-microscopic potentials in simple one-channel and CCs are obtained. The values of cross section and volume integrals require more contributions to enable more comparisons regarding this project.