Investigation of 54Fe(α, n)57Ni Reaction for Low Activation Material Fe

E. Yıldız, S. Tekerek
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Abstract

In fusion reactors, radioactivity can be controlled by effective material selection. Material selection is always important for efficient conversion of radioactivity to electrical energy.The selection of structural materials provides more efficient use of these structural materials with the results obtained from nuclear reactions. Low activation materials not only high in structural material performance and longer life, but also minimize related problems. Iron is an important element in fusion reactor technologies and astrophysical applications. For this reason, we obtained the theoretical cross-section values of the 54Fe(α, n)57Ni reaction in the range of 5-15 MeV (Mega electron volt) in this study. TALYS 1.8 (nuclear model code system) and NON-SMOKER (computer code) were used for theoretical calculations. Astrophysical S-factor values describing reactions at low energies were also calculated. In addition, reaction rate values were calculated with TALYS 1.8 and compared with EXFOR (experimental nuclear reaction data).
低活化材料Fe对54Fe(α, n)57Ni反应的研究
在聚变反应堆中,放射性可以通过有效的材料选择来控制。材料的选择对于将放射性有效地转化为电能总是很重要的。结构材料的选择提供了更有效地利用这些结构材料与核反应得到的结果。低活化材料不仅结构材料性能高,寿命长,而且能最大限度地减少相关问题。铁是聚变反应堆技术和天体物理应用中的重要元素。因此,我们在本研究中获得了54Fe(α, n)57Ni反应在5-15 MeV(兆电子伏特)范围内的理论截面值。理论计算采用TALYS 1.8(核模型代码系统)和NON-SMOKER(计算机代码)。还计算了描述低能反应的天体物理s因子值。此外,用TALYS 1.8计算反应速率值,并与EXFOR(实验核反应数据)进行比较。
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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