Fusion-fission in the reactions of the 58Ni + 251Cf and 64Zn + 248Cm combinations

Science and Technology Development Journal Pub Date : 2020-05-24 DOI:10.32508/stdj.v23i2.2056

D. Nguyen

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引用次数: 1

Abstract

Introduction: In the present study, we evaluate the nucleon evaporation, alpha decay, and fission widths in the fusion-fission of the 58Ni+251Cf and 64Zn + 248Cm reactions for the synthesis of the super-heavy 309, 312126 nuclei. Methods: The feasibility of the synthesis of the 309, 312126 isotopes via the mentioned systems is investigated based on the widths. The widths in the excitation energy range of E* = 10 – 100 MeV are calculated in the scope of the statistical model, in which the level density is calculated by using the Fermi-gas model. By employing the LISE++ code, the level densities the compound nuclei, 309, 312126 nuclei, are calculated to be about 105 – 1050 (MeV-1) in the energy range of interest. Results: The lifetime of the compound nuclei, 309, 312126 nuclei, which are estimated based on the total width, is about 10-22-10-20 s. The fission has the largest width compared to those of the alpha decay and nucleon evaporations. Hence, the 58Ni+251Cf and 64Zn + 248Cm combinations are appropriate to the study of the mass distribution. In addition, the large alpha decay widths suggest the 309, 312126 isotopes be the alpha-decay nuclei. Conclusion: The results are expected to be useful for considering measurements at facilities in the near future.

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58Ni + 251Cf和64Zn + 248Cm组合的聚变-裂变反应

在本研究中，我们评估了58Ni+251Cf和64Zn + 248Cm合成超重核309、312126的聚变-裂变反应中的核子蒸发、α衰变和裂变宽度。方法:从宽度的角度考察了上述体系合成309,312126同位素的可行性。在统计模型范围内计算E* = 10 - 100 MeV激发能范围内的宽度，其中能级密度采用费米-气体模型计算。利用LISE++编码，计算出309,312126原子核的能级密度在目标能量范围内约为105 - 1050 (MeV-1)。结果:根据总宽度估算的309、312126复合核的寿命约为10-22-10-20 s。与α衰变和核子蒸发相比，裂变具有最大的宽度。因此，58Ni+251Cf和64Zn + 248Cm组合适合于质量分布的研究。此外，大的α衰变宽度表明309、312126同位素是α衰变核。结论:本研究结果可为今后的设施测量提供参考。

本文章由计算机程序翻译，如有差异，请以英文原文为准。

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Science and Technology Development Journal

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