Role of Barrier Modification and Nuclear Structure Effects in Sub-Barrier Fusion Dynamics of Various Heavy Ion Fusion Reactions

The role of barrier modifications and the relevant nuclear structure effects in the fusion of the ( {}_8{}^{16}O+{}_{62}{}^{144,148,150,152,154}Sm ) and ( {}_3{}^{6,7}Li+{}_{62}{}^{152}Sm ) systems is analyzed within the context of the energy-dependent Woods-Saxon potential model (EDWSP model) and the coupled channel model. For the ( {}_8{}^{16}O+{}_{62}{}^{144,148,150,152,154}Sm ) reactions, where the colliding pairs are stable against breakup, the collective excitations and/or static deformations are sufficient to account for the observed fusion enhancement. In contrast, the model calculations overpredict the complete fusion data at above - barrier energies for the ( {}_3{}^{6,7}Li+{}_{62}{}^{152}Sm ) systems, where the importance of projectile breakup effects has been pointed out. Due to the low threshold of the alpha-breakup channel, the weakly bound projectiles ( left({}_3{}^{6,7}Liright) ) break up into charged fragments before reaching the fusion barrier and consequently the complete fusion cross section is suppressed by 28% (25%) in the ( {}_3{}^6Li+{}_{62}{}^{152}Sm;left({}_3{}^7Li+{}_{62}{}^{152}Smright) ) reaction with respect to predictions of coupled channel calculations. However, the EDWSP model based calculations can minimize the suppression factor by as much as of 13% (8%) in the ( {}_3{}^6Li+{}_{62}{}^{152}Sm;left({}_3{}^7Li+{}_{62}{}^{152}Smright) ) reaction with reference to the predictions made by the coupled channel calculations. Therefore, the complete fusion data of the ( {}_3{}^6Li+{}_{62}{}^{152}Sm;left({}_3{}^7Li+{}_{62}{}^{152}Smright) ) reaction at above - barrier energies is reduced by 15% (17%) with respect to the expectations of the EDWSP model. The extracted suppression factors for the studied reactions are due to the modifications of the barrier profile as a consequence of the energy - dependence in nucleus-nucleus potential, and thus greater barrier modifications occur for more weakly bound system, which in turn, confirms the breakup of projectile in the incoming channel.