Study of the enhancement factor and electron potential in the D (3He, p)4He reaction using deuterated metal targets TiD and ZrD

V. Bystritsky, D. Chumakov, G. Dudkin, M. Filipowicz, B. Nechaev, A. Nurkin, V. N. Padalko, F. Pen'kov, A. Philippov, Y. Tuleushev, V. A. Varlachev, E. Zhakanbaev
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Abstract

The study of thermonuclear reactions such as D(d, p)3H, D(d, n)3He, T(d, n)3He, 3He(d, p)4He, and D(3He, p)4He is of great interest in the field of astrophysics, as it affects the primordial nucleosynthesis, as well as issues of stellar dynamics. These reactions are also of interest in thermonuclear power engineering, in connection with the increased interest in the possibility of practical application of thermonuclear fusion. In this work, the analysis of the results obtained in the course of studying the reaction D(3He, p)4He was carried out. The results were obtained by us in previous works on deuterated metal targets ZrD and TiD with Miller indices [111] and [100]. There is a need to more precise study of the effects accompanying thermonuclear reactions at low astrophysical energies. The purpose of this work is to study the behavior of the screening potential [Formula: see text] and the reaction enhancement factor [Formula: see text], depending on the crystal structure of targets and the interaction energy. The studies were carried out on a Hall accelerator (Tomsk, TPU) in the energy range [Formula: see text]([Formula: see text][Formula: see text]keV in lab reference frame with a step of 2[Formula: see text]keV. Experiments have shown that in reactions using metal deuterated targets a similar effect as in reactions using gas targets was observed. Specifically, an electron screening effect was observed, which leads to an increase in the reaction cross-section with decreasing energy, and in case of metal target this effect becomes stronger.
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用氘化金属靶品TiD和ZrD研究D (3He, p)4He反应的增强因子和电子势
D(D, p)3H, D(D, n)3He, T(D, n)3He, 3He(D, p)4He和D(3He, p)4He等热核反应的研究是天体物理学领域的重要研究方向,因为它们影响着原始核合成以及恒星动力学问题。这些反应在热核动力工程中也引起了人们的兴趣,因为人们对热核聚变实际应用的可能性越来越感兴趣。本文对D(3He, p)4He反应的研究结果进行了分析。我们在前人对米勒指数的氘化金属靶ZrD和TiD的研究中得到的结果[111]和[100]。有必要更精确地研究低天体物理能量下热核反应的效应。本工作的目的是研究筛选势[公式:见文]和反应增强因子[公式:见文]的行为,取决于目标的晶体结构和相互作用能。在能量范围[公式:见文]([公式:见文][公式:见文][公式:见文])的霍尔加速器(托木斯克,TPU)上进行研究,在实验室参考系中,步长为2[公式:见文]keV。实验表明,在使用金属氘化靶的反应中,观察到的效果与使用气体靶的反应相似。具体而言,观察到电子屏蔽效应,导致反应截面随着能量的降低而增加,并且在金属靶中这种效应更强。
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