Abstract
We studied quasi-elastic scattering and the effective weight function for the barrier distribution for 32S+92,94,96,98,100Mo reactions have been calculated simultaneously in a wide range of bombarding energies around the Coulomb barrier. The quasi-elastic angular distribution data are analyzed using the optical model code with Woods-Saxon potentials. It is shown that the calculations taken into account, for these reactions can explain structures of the quasi-elastic cross-section and the quasi-elastic barrier distribution. These results indicate that the coupled-channels formalism can still valid even for the various mass systems. The large-angle quasi-elastic scattering reactions were scrutinized with the identical core-core potential recommended for designating fusion reactions. Given the effect of a barrier distribution and nucleon transfer on the Woods-Saxon potential, the calculated semi-elastic scattering cross-sections of a series of reactions are in good harmony each other.
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