Abstract
The real parts of the optical model potentials for 104 MeV alpha-particle and 156 MeV6Li ion scattering from40, 48Ca are calculated in terms of folding model approaches. The validity of different procedures is tested by comparing the differential cross section predictions with experimental data measured with high angular accuracy. It is found that a refined folding potential accounting for density dependence of an effective nucleon-nucleon interaction is appropriate for alpha particle scattering without any parameter adjustment. However, for6Li ion scattering renormalization of the depth of the real potential is necessary.
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