Vertical dust particle chains - mass and charge measurements

2007 16th IEEE International Pulsed Power Conference Pub Date : 2007-07-23 DOI:10.1109/ppps.2007.4652490

J. Carmona-Reyes, J. Schmoke, M. Cook, Jie Kong, T. Hyde

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引用次数: 1

Abstract

Dusty plasmas have generated a large amount of interest since the discovery of ordered structure (crystal) formation in experimentally generated complex plasmas in 1994. Dust particles within the plasma sheath generated in these complex plasmas can form vertical chains due to the streaming ion wakefield. For the simplest of these configurations (a two particle chain), the particle closest to the lower electrode will generally remain in the shadow of the particle farthest from the lower electrode. These results in the two particles feeling differing ion drag forces: the top particle is acted on by the ion drag force directed from the plasma to the lower electrode, while the bottom particle is acted upon by the resulting ‘wakefield’ produced by the interaction of the upper particle with the ion drag force. This dynamic situation currently provides the best known experimental environment for examining the physics behind the ion drag force and its interaction with the plasma sheath. An experimental method for investigating the interaction between pair-particle chains based on modulating the bias on the lower electrode employing a DC bias modulation technique will be presented.

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垂直尘粒链。质量和电荷测量

自1994年在实验生成的复杂等离子体中发现有序结构(晶体)形成以来，尘埃等离子体引起了人们的极大兴趣。在这些复杂等离子体中产生的等离子鞘内的尘埃颗粒可以由于流动的离子尾流场而形成垂直链。对于这些结构中最简单的(双粒子链)，最靠近下电极的粒子通常会保持在离下电极最远的粒子的阴影中。这导致两个粒子感受到不同的离子阻力:顶部粒子受到从等离子体到下电极的离子阻力的作用，而底部粒子受到由上部粒子与离子阻力相互作用产生的“尾流场”的作用。这种动态情况目前为研究离子阻力及其与等离子体鞘层的相互作用背后的物理学提供了最著名的实验环境。本文提出了一种基于直流偏压调制技术调制下电极偏压来研究粒子对链相互作用的实验方法。

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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2007 16th IEEE International Pulsed Power Conference

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