Tel Eyyup, Bülbül Ahmet, Sarpün İsmail Hakkı, Doğan Aydoğan
Osmaniye Korkut Ata University, Faculty of Arts and Sciences, Department of Physics, Osmaniye, Turkiye.
Osmaniye Korkut Ata University, Faculty of Arts and Sciences, Department of Physics, Osmaniye, Turkiye.
Appl Radiat Isot. 2023 Jan;191:110458. doi: 10.1016/j.apradiso.2022.110458. Epub 2022 Sep 20.
The knowledge of (n,2n) cross sections is required in shielding and breeding calculations. It's also important, in nuclear reactor applications, for neutron dosimetry research. In nuclear reaction mechanism, (n,2n) reaction channel is the dominant reaction for medium and heavy mass nuclei at 14 MeV energy range. The empirical and semi-empirical (n,2n) reaction cross sections have been investigated by many authors, but theoretical calculations have not been adequate because of the character of the nuclear structure is not exactly known. In this work, a new empirical formula has been proposed to calculate the (n,2n) reaction cross sections at 14-15 MeV neutron incident energy. In the calculations different fitting method have been used to obtain cross-section formula for target nuclei in the range 14 ≤ A ≤ 241 mass number. The (n,2n) experimental cross sections have been taken from EXFOR nuclear data library. In this new formula, the Flerov and Talyzin expression for the inelastic cross section σ was used to fit the experimental (n,2n) cross sections. It has been observed that the obtained formulas give quite coherent results with the experimental data.
在屏蔽和增殖计算中需要用到(n,2n)截面的知识。在核反应堆应用中,对于中子剂量学研究而言,它也很重要。在核反应机制中,(n,2n)反应通道是中重质量核在14 MeV能量范围内的主要反应。许多作者对经验和半经验(n,2n)反应截面进行了研究,但由于核结构的特性尚未完全明确,理论计算还不够充分。在这项工作中,提出了一个新的经验公式来计算14 - 15 MeV中子入射能量下的(n,2n)反应截面。在计算中,使用了不同的拟合方法来获得质量数在14 ≤ A ≤ 241范围内靶核的截面公式。(n,2n)实验截面取自EXFOR核数据库。在这个新公式中,非弹性截面σ的弗廖罗夫和塔利津表达式被用来拟合实验(n,2n)截面。据观察,所得到的公式与实验数据给出了相当一致的结果。
