Fusion Barrier of Super-heavy Elements in a Generalized Liquid Drop Model  

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作  者:CHENBao-Qiu MAZhong-Yu 

机构地区:ChinaInstituteofAtomicEnergy,Beijing102413,China

出  处:《Communications in Theoretical Physics》2004年第4X期594-598,共5页理论物理通讯(英文版)

基  金:国家自然科学基金,国家重点基础研究发展计划(973计划)

摘  要:The macroscopic deformed potential energies for super-heavy elements Z = 110,112,114,116,118 are determined within a generalized liquid drop model (GLDM). A quasi-molecular mechanism is introduced to describe the deformation of a nucleus in the GLDM and the shell model simultaneously. The macroscopic energy of a twocenter nuclear system in the GLDM includes the volume-, surface-, and Coulomb-energies, the proximity effect at each mass asymmetry, and accurate nuclear radius. The shell correction is calculated by the Strutinsky method and the microscopic single particle energies are derived from a shell model in an axially deformed Woods-Saxon potential with the quasi-molecular shape. The total potential energy of a nucleus can be calculated by the macro-microscopic method as the summation of the liquid-drop energy and the Strutinsky shell correction. The theory is applied to predict the fusion barriers of the cold reactions 64Ni + 208Pb → 272110*, 70Zn + 208Pb → 278112*, 76Ge + 208pb → 284114*,82Se + 208Pb → 290116*, 86Kr + 208Pb → 294118*. It is found that the neck in the quasi-molecular shape is responsible for the deep valley of the fusion barrier. In the cold fusion path, double-hump fusion barriers could be predicted by the shell corrections and complete fusion events may occur.

关 键 词:原子核物理 超重元素 准分子器件 冷聚变 广义液滴模型 库仑能 

分 类 号:O571.4[理学—粒子物理与原子核物理]

 

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