均匀电场中离子群的空间分辨平均动能

Z. M. Raspopović
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引用次数: 0

摘要

利用蒙特卡罗模拟技术,研究了无界气体中暴露在低、恒定、均匀电场中的非相互作用带电粒子脉冲在空间和时间上的变化。群的前后缘电势的差异导致空间分辨的平均离子动能成为空间线性增加的函数。这封信分析了在集群的时空演化过程中,前缘的平均离子动能是否如目前所考虑的那样达到一个平稳值。当群体的平均动能达到一个稳态值时,表明能量平衡随着时间的推移而建立,增益(来自场)和损失(由于碰撞)在空间上是不均匀的。局部功率平衡在群的前部为负,尾部为正。在前端冷却离子,在尾部加热离子,导致前端离子平均动能降低,尾部离子平均动能增加。因此,在演化过程中,前后缘不存在平均离子动能的定值。相反,它们倾向于接近蜂群的平均动能为$t\ensuremath{\rightarrow}\ensuremath{\infty}$。
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Space-resolved average kinetic energy of ion swarms in a uniform electric field
A pulse of noninteracting charged particles in an unbounded gas, exposed to a low, constant, homogeneous electric field, was studied in both space and time using a Monte Carlo simulation technique. The difference in electrical potential between the leading and trailing edges of the swarm results in the space-resolved average ion kinetic energy becoming a linearly increasing function of space. This Letter analyzes whether the average ion kinetic energy at the leading edge reaches a stationary value during the spatiotemporal evolution of the swarm, as has been considered so far. When the swarm's mean kinetic energy reaches a steady-state value, indicating that an energy balance is established over time, the gains (from the field) and losses (due to collisions) are nonuniform across space. The local power balance is negative at the front of the swarm and positive at the tail. Cooling the ions at the front and heating the ions at the tail results in a decrease in the average ion kinetic energy at the front and an increase at the tail. Thus, it can be concluded that stationary values of average ion kinetic energy do not exist at the leading and trailing edges during the evolution. Instead, they tend to approach the swarm's mean kinetic energy as $t\ensuremath{\rightarrow}\ensuremath{\infty}$.
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