260Rf 复合核在 85.7 MeV 激发能量下的二元碎裂动力学研究

IF 1.7 4区 物理与天体物理 Q2 PHYSICS, NUCLEAR Nuclear Physics A Pub Date : 2024-05-07 DOI:10.1016/j.nuclphysa.2024.122892
Amit , Chetan Sharma , Shruti , Raghav , Subodh , Amninderjeet Kaur , P. Sugathan , A. Jhingan , N. Saneesh , K.S. Golda , Mohit Kumar , D. Arora , Vikas , Neeraj Kumar , B.R. Behera , H.J. Wollersheim , J. Gerl
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引用次数: 0

摘要

研究了在 85.7 MeV 激发能量下通过 28Si + 232Th 反应填充的近超重化合物核 260Rf 的裂变动力学。从转移诱导裂变事件中分离出了全动量转移二元事件。发现转移诱导裂变的贡献率为 7±2%。利用双体运动学提取了全动量转移事件的质量比分布、质量-总动能(TKE)和质量角相关性。实验提取的质量分布宽度高于利用鞍点模型理论计算的质量宽度,这表明在所研究的反应中存在非复合核裂变。获得的 260Rf 核的质量-TKE 分布与 Viola 系统学和裂变观测数据的通用描述(GEF)模型的理论预测相吻合。所研究反应的质量-角度分布表明,裂变碎片的质量和发射角之间没有明显的相关性。
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Study of binary fragmentation dynamics of 260Rf compound nucleus at an excitation energy of 85.7 MeV

The fission dynamics has been studied for a near super heavy compound nucleus 260Rf populated through 28Si + 232Th reaction at an excitation energy of 85.7 MeV. Full momentum transfer binary events were separated from the transfer induced fission events. The contribution from transfer induced fission has been found to be 7±2%. Mas ratio distribution, mass-total kinetic energy (TKE), and mass angle correlation have been extracted for the full momentum transfer events using two body kinematics. The experimentally extracted width of mass distribution is higher than the mass width calculated theoretically using the saddle-point model, which indicates the presence of non-compound nuclear fission in the reaction under study. The mass-TKE distribution obtained for 260Rf nucleus matches with the theoretical predictions from the Viola systematics and GEneral description of Fission observables (GEF) model. The mass-angle distribution for the reaction under study indicates no significant correlation between the mass and emission angles of the fission fragments.

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来源期刊
Nuclear Physics A
Nuclear Physics A 物理-物理:核物理
CiteScore
3.60
自引率
7.10%
发文量
113
审稿时长
61 days
期刊介绍: Nuclear Physics A focuses on the domain of nuclear and hadronic physics and includes the following subsections: Nuclear Structure and Dynamics; Intermediate and High Energy Heavy Ion Physics; Hadronic Physics; Electromagnetic and Weak Interactions; Nuclear Astrophysics. The emphasis is on original research papers. A number of carefully selected and reviewed conference proceedings are published as an integral part of the journal.
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