Kahramanmaras Sutcu Imam University, Vocational School of Health Services, Dept. of Medical Imaging Tech., Kahramanmaras, Turkey.
Physics Department, Faculty of Science, The M. S. University of Baroda, Vadodara, 390020, India.
Appl Radiat Isot. 2022 Nov;189:110426. doi: 10.1016/j.apradiso.2022.110426. Epub 2022 Aug 25.
It is important to examine the effects of the nuclear reaction, which is used as a building material in nuclear reactors. Nuclear reactions occur as a result of the interaction between incident particles with the target nuclei. The charged particle-induced reactions have prime importance in understanding the reaction mechanism which can be applicable to understand the particles resulting from the reaction. It is useful to develop shielding the particle accelerators and fusion reactors. The present study contributes to providing the theoretical prediction of excitation functions for Cd (d, 3n)In, Pr (d, 3n)Nd, Er (d, 3n)Tm, Au (d, 3n)Hg and Bi (d, 3n)Po reactions using theoretical model codes such as TALYS-1.95, EMPIRE-3.2.3, and ALICE-2014 within the incident deuteron energy range of threshold energy to 50 MeV. Also, newly developed (d, 3n) cross-section formula (Kavun, 2020) calculations have been performed for these reactions at 20 MeV of deuteron energy. Lastly, all calculated results have been compared with one another and with the previously published experimental data of the EXFOR database.
研究核反应堆中用作建筑材料的核反应的影响非常重要。核反应是由于入射粒子与靶核相互作用而产生的。带电粒子引起的反应对于理解反应机制非常重要,这可以适用于理解反应产生的粒子。开发粒子加速器和聚变反应堆的屏蔽是很有用的。本研究通过使用 TALYS-1.95、EMPIRE-3.2.3 和 ALICE-2014 等理论模型代码,对 Cd(d,3n)In、Pr(d,3n)Nd、Er(d,3n)Tm、Au(d,3n)Hg 和 Bi(d,3n)Po 反应在从阈能到 50 MeV 的入射氘核能量范围内的激发函数进行了理论预测。此外,还针对这些反应在氘核能量为 20 MeV 的情况下,采用 Kavun 于 2020 年提出的新的(d,3n)截面公式进行了计算。最后,将所有计算结果相互进行了比较,并与 EXFOR 数据库中之前发表的实验数据进行了比较。
