46-50Ti聚变反应堆结构材料上(n,α)和(n,xα)反应截面的理论计算

R. Baldık
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引用次数: 0

摘要

核聚变反应堆结构材料的最大问题是聚变产物中子对结构材料的破坏。如果这个问题被克服,将在核聚变能源领域留下一个重要的里程碑。结构材料的一个重要问题是,形成结构材料的原子核与聚变中子相互作用,通过(n, x) (x;,质子,等等)反应。特别是,通过氘-氚(D-T)和(n, α)反应,结构材料中氦气浓度增加,这种增加明显改变了结构材料的微观结构和性能。因此,本研究首次研究了不同核能级密度模型对46-50Ti同位素(n, α)反应激发函数的影响。46-50Ti同位素是一种有吸引力的聚变反应堆结构材料。此外,我们还研究了在14.1 MeV入射中子能量下46-50Ti (n, xα)反应中α粒子发射的微分截面。利用TALYS 1.9代码中的双组分激子模型进行了计算,并与已有的实验数据进行了比较。研究结果将为ITER(国际热核实验反应堆)、DEMO(示范电厂)和ENS(欧洲核学会)等重要设施的改进、设计和运行提供必要的核数据库。
本文章由计算机程序翻译,如有差异,请以英文原文为准。
Theoretical Calculations of the Cross-sections for (n,α) and (n,xα) reactions on the Structural Material for Fusion Reactor 46-50Ti
The biggest problem of structural materials for fusion reactor is the damage caused by the fusion product neutrons to the structural material. If this problem is overcomed, an important milestone will be left behind in fusion energy. One of the important problems of the structural material is that nuclei forming the structural material interacting with fusion neutrons are transmuted to stable or radioactive nuclei via (n, x) (x; alpha, proton, gamma etc.) reactions. In particular, the concentration of helium gas in the structural material increases through deuteron- tritium (D-T) and (n, α) reactions, and this increase significantly changes the microstructure and the properties of the structural materials. Therefore, in this study, the effects of the different nuclear level density models on the excitation functions of the (n, α) reactions on 46-50Ti isotopes, an attractive candidate for the structural material for fusion reactors, have been investigated for the first time. Also, the differential cross-sections with respect to alpha energy for the emission of alpha particles of the 46-50Ti (n, xα) reactions have been investigated at 14.1 MeV incident neutron energy. The calculations are performed using the two-component exciton model in the TALYS 1.9 code, and the results are compared with available experimental data. The results of this study will contribute to nuclear database as required for improving, design and operations of the important facilities as ITER (International Thermonuclear Experimental Reactor), DEMO (The demonstration power plant) and ENS (European Nuclear Society).
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