Enhancement of fusion reactivities using non-Maxwellian energy distributions

arXiv - PHYS - Plasma Physics Pub Date : 2024-09-09 DOI:arxiv-2409.05848
Ben I. Squarer, Carlo Presilla, Roberto Onofrio
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Abstract

We discuss conditions for the enhancement of fusion reactivities arising from different choices of energy distribution functions for the reactants. The key element for potential gains in fusion reactivity is identified in the functional dependence of the tunnellng coefficient upon the energy, ensuring the existence of a finite range of temperatures for which reactivity of fusion processes is boosted with respect to the Maxwellian case. This is shown, using a convenient parameterization of the tunneling coefficient dependence upon the energy, analytically in the simplified case of a bimodal Maxwell-Boltzmann distribution, and numerically for kappa-distributions. We then consider tunneling potentials progressively better approximating fusion processes, and evaluate in each case the average reactivity in the case of kappa-distributions.
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利用非麦克斯韦能量分布提高聚变反应活度
我们讨论了反应物能量分布函数的不同选择所产生的聚变反应性增强条件。聚变反应性潜在增益的关键因素在于隧穿系数对能量的函数依赖性,它确保存在一个有限的温度范围,在这个温度范围内,聚变过程的反应性相对于麦克斯韦情况会得到提高。利用隧道系数与能量关系的方便参数化,我们对双峰麦克斯韦-波兹曼分布的简化情况进行了分析,并对卡帕分布进行了数值计算,从而证明了这一点。然后,我们考虑了逐渐更接近聚变过程的隧道势,并在每种情况下评估了卡帕分布情况下的平均反应性。
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arXiv - PHYS - Plasma Physics
arXiv - PHYS - Plasma Physics
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