The hindrance in heavy-ion fusion reactions at deep sub-barrier energies is investigated using the double folding model with a hybrid method between the frozen and adiabatic density approximations.In this method,the density distributions of the projectile and the target depend closely on the distance between them.As the distance decreased,the half-density radii of the colliding nuclei gradually increased to the half-density radius of the com-pound nucleus.The total potential based on this non-frozen approximation generates a slightly shallower pocket and becomes more attractive inside the pocket compared to that obtained from the frozen approximation.A damping factor was used to simulate the decline of the coupled channel effects owing to the density rearrangement of the two colliding nuclei.The calculated fusion cross-sections and astrophysical S factors at the deep sub-barrier energies are both in good agreement with the experimental data for the medium-heavy 64Ni+64Ni and medium-light 24Mg+30Si mass systems.In addition,it was concluded that the apparent maximum of the S factors most likely appears in fusion systems with strong coupling effects.

Kai-Xuan Cheng;Jie Pu;Yu-Ting Wang;Ya-Fei Guo;Chun-Wang Ma

School of Physics,Henan Normal University,Xinxiang 453007,China

核技术（英文版）

[1]Kai-Xuan Cheng;Jie Pu;Yu-Ting Wang;Ya-Fei Guo;Chun-Wang Ma-.Non-frozen process of heavy-ion fusion reactions at deep sub-barrier energies)[J].核技术（英文版）,2022(10):117-125

64Ni+64Ni,24Mg+30Si

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