Influence of Nuclear Deformation on the Potential Energy Surface in Di-Nuclear Model
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Abstract
Influence of the nuclear deformation on the potential energy surface (PES) in a di-nuclear system is studied in details. It is found that the PES shape changes greatly due to the deformation effect. The top point of the PES could be reduced significantly, which implies that the optimum excitation energy could also be reduced greatly and may enhance the formation probability of the compound nucleus. The dynamical deformation as a function of the reaction time in the reaction process is dramatic. The Z/N ratios of fragments tend to follow that of the compound nucleus during the nucleon exchange process, but to fluctuate.
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WANG Nan, ZHAO En-Guang, LI Jian-Feng, LI Wen-Fei, XU Hu-Shan, ZUO Wei, LI Jun-Qing. Influence of Nuclear Deformation on the Potential Energy Surface in Di-Nuclear Model[J]. Chin. Phys. Lett., 2003, 20(5): 635-638.
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WANG Nan, ZHAO En-Guang, LI Jian-Feng, LI Wen-Fei, XU Hu-Shan, ZUO Wei, LI Jun-Qing. Influence of Nuclear Deformation on the Potential Energy Surface in Di-Nuclear Model[J]. Chin. Phys. Lett., 2003, 20(5): 635-638.
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WANG Nan, ZHAO En-Guang, LI Jian-Feng, LI Wen-Fei, XU Hu-Shan, ZUO Wei, LI Jun-Qing. Influence of Nuclear Deformation on the Potential Energy Surface in Di-Nuclear Model[J]. Chin. Phys. Lett., 2003, 20(5): 635-638.
|
WANG Nan, ZHAO En-Guang, LI Jian-Feng, LI Wen-Fei, XU Hu-Shan, ZUO Wei, LI Jun-Qing. Influence of Nuclear Deformation on the Potential Energy Surface in Di-Nuclear Model[J]. Chin. Phys. Lett., 2003, 20(5): 635-638.
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