Optical and Coupled-Channels Description of 20Ne+16O Elastic Scattering

The elastic scattering of the 20Ne+16O system has been analyzed with a phenomenological potential approach within the framework of the optical and coupled-channels models at ELab =50.0 MeV. The striking feature of the experimental data is the oscillatory structure at the intermediate angles and a rapid increase at large angles. Optical potentials have difficulty in describing such structures and predict a fall of experimental data around the intermediate angles. In order to explain this structure, we have used a deep real potential with a sum of Woods-Saxon typed surface and volume imaginary potentials. We present that deep real potential with these imaginary potentials explain the oscillatory structure and backward rise observed in the elastic scattering data within both models. It should be pointed out that there is a magnitude problem of the inelastic 2+ data for the deformed 20Ne nucleus that the standard coupled-channels model is unable to predict correctly.