Large-Angle Collisions in Burning Plasmas of Inertial Confinement Fusions

arXiv - PHYS - Plasma Physics Pub Date : 2024-08-04 DOI:arxiv-2408.01948

Y. H. Xue, D. Wu, J. Zhang

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Abstract

A recent neutron analysis of experiments conducted at the National Ignition Facility (NIF) has revealed deviations from the Maxwellian distributions in the ion relative kinetic energy of burning plasmas, with the surprising emergence of supra-thermal deuterium and tritium (DT) ions that fall outside the predictions of macroscopic statistical hydrodynamic models. Our hybrid-particle-in-cell simulations, incorporating the newly-developed model of large-angle collisions, suggest this could be attributed to the increased significance of large-angle collisions among DT ions and \(\alpha\)-particles in the burning plasma. Extensive investigations into the implications of large-angle collisions in the burning plasma have yield several key findings, including an ignition moment promotion by \(\sim 10\, {\rm ps}\), the presence of supra-thermal ions below an energy threshold, and a hotspot expansion rate about six times faster than expected. Furthermore, we have established the congruency between the NIF neutron spectral moment analysis and our simulations. Our researches on large-angle collisions in burning plasmas offer new insights for experiment interpretation and update our understanding for new designs of inertial confinement fusions.

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惯性约束聚变燃烧等离子体中的大角度碰撞

最近对在美国国家点火装置（NIF）进行的实验进行的中子分析表明，燃烧等离子体的离子相对动能偏离了麦克斯韦分布，令人惊讶的是出现了超热氘和氚（DT）离子，它们超出了宏观统计流体力学模型的预测范围。我们结合新开发的大角度碰撞模型进行的混合粒子在胞模拟表明，这可能是由于氘和氚离子与燃烧等离子体中的（\α）粒子之间的大角度碰撞的重要性增加了。对燃烧等离子体中大角度碰撞的影响的广泛研究产生了几个关键的发现，包括由（\sim 10\, {\rm ps}\）促进的点燃力矩、低于能量阈值的超热离子的存在，以及比预期快六倍左右的热点膨胀率。此外，我们还建立了NIF中子谱矩分析与我们的模拟之间的一致性。我们对燃烧等离子体中大角度碰撞的研究为实验解释提供了新的见解，并更新了我们对惯性约束聚变新设计的理解。

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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arXiv - PHYS - Plasma Physics

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