Abstract
The dynamic effects of breakup Channel on for 8B+58Ni, 9Be+64Zn, and 12C+208Pb systems in elastic scattering reactions have been studied by calculating two quantities, which are the cross-section of the scattering and the distribution of the scattering barrier as functions of the angle of the center of the block and the energy of the center of the mass of some selected systems whose nuclei are Weakly Bound. The calculations are based on continuum discretized coupled-channel (CDCC) theory using code (CC) full quantum mechanics. The interpretation of the experimental findings was evaluated in the context of the optical model using the Woods-Saxon potential. both real and imaginary. In the context of the optical model of the real and imaginary parts, the interpretation of experimental results was analyzed using Woods-Saxon potential. The uncoupling and coupling channels (CC) have been calculated with the energy center Ec.m. to achieve the maximum consistency with experimental data for the systems being studied. The effect of breakup channel is giving a good description of results to be in agreement with experimental data.
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