The elastic scattering angular distributions of ^(32)S projectile by ^(12)C, ^(27)Al, ^(40)Ca, ^(48)Ca, ^(48)Ti, ^(58)Ni, ^(63)Cu, ^(64)Ni, ^(76)Ge, ^(96)Mo and ^(100)Mo targets over the energy range 83.3 - 180 MeV are analyzed in the framework of the double folding model based on the optical model. The real part of the optical model potential is obtained by using a double folding model for eight different density distributions of ^(32)S, which consist of Ngo, SP, 2pF, G1, G2, S, 3pF, and HFB. The imaginary part of the optical model potential is accepted as the Woods-Saxon (WS) potential. The theoretical results successfully reproduce the experimental data over both a wide energy range and many target nuclei. Finally, simple and useful formulas that predict imaginary potential depths of each density are derived based on the elastic scattering results.
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