用本征聚变和裂变势垒分析研究Ti和Nd同位素聚变的合适靶弹组合

D. Verma, Kushmakshi ., Monika Manhas
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引用次数: 2

摘要

背景:如果一个构型对应于最小的内在聚变势垒和最大的裂变势垒,那么它是最适合核聚变的。目的:从理论上分析钛和钕同位素的内禀聚变和裂变势垒,并考虑到六极数量级的变形,从而找到合适的靶弹组合。方法:采用破碎理论进行计算。结果:43Ti+150Nd腹腹型靶弹组合固有融合势垒最小,裂变势垒最大,高阶变形的加入导致长形靶弹的裂变势垒减小,大部分靶弹的致密性增大。结论:从Ti和Nd的同位素来看,最适合核聚变的靶弹组合是43Ti+150Nd。
本文章由计算机程序翻译,如有差异,请以英文原文为准。
Investigation for Suitable Target-Projectile combination for Fusion from the Isotopes of Ti and Nd using Intrinsic Fusion and Fission Barriers Analysis
Background: A configuration is most suitable for the fusion if it corresponds to a minimum intrinsic fusion barrier and maximum fission barrier.Purpose: To find a suitable target-projectile combination from the isotopes of Ti and Nd by analyzing the intrinsic fusion and fission barriers theoretically by including the deformations up to hexadecapole order.Methods: The fragmentation theory has been used for the calculations. Results: The intrinsic fusion barrier is minimum and fission barrier is maximum for the targetprojectile combination: 43Ti+150Nd in belly-belly configuration, and the inclusion of deformation of higher order leads to the decrease of fission barrier for the prolate shaped cases and compactness for most of the cases.Conclusions: The most suitable target-projectile combination from the isotopes of Ti and Nd for the fusion is 43Ti+150Nd.
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