Experimental Test of Instability-Enhanced Collisional Friction for Determining Ion Loss in Two Ion Species Plasmas

Chi-Shung Yip; Noah Hershkowitz; Greg Severn

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Experimental Test of Instability-Enhanced Collisional Friction for Determining Ion Loss in Two Ion Species Plasmas

机译：不稳定增强的碰撞摩擦确定两种离子物种的离子损失的实验测试

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Recent experiments have shown that ions in weakly collisional plasmas containing two ion species of comparable densities nearly reach a common velocity at the sheath edge. A new theory suggests that collisional friction between the two ion species enhanced by two stream instability reduces the drift velocity of each ion species relative to each other near the sheath edge and finds that the difference in velocities at the sheath edge depends on the relative concentrations of the species. It is small when the concentrations are comparable and is large, with each species reaching its own Bohm velocity, when the relative concentration differences are large. To test these findings, ion drift velocities were measured with laser-induced fluorescence in argon-xenon plasmas. We show that the predictions are in excellent agreement with the first experimental tests of the new model.

机译：最近的实验表明，在具有两种密度可比较的两种离子的弱碰撞等离子体中，离子在护套边缘处几乎达到相同的速度。一种新的理论表明，两个离子流之间的碰撞摩擦由于两个流的不稳定性而增强，从而降低了每种离子在鞘边缘附近相对于彼此的漂移速度，并发现鞘边缘的速度差异取决于离子的相对浓度。该物种。当浓度可比较时，它很小，而当相对浓度差很大时，每种物质都达到自己的玻姆速度，所以它很大。为了测试这些发现，在氩-氙等离子体中用激光诱导的荧光测量了离子漂移速度。我们表明，这些预测与新模型的首次实验测试非常吻合。

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来源
《Physical review letters》 |2010年第22期|P.225003.1-225003.4|共4页
作者
Chi-Shung Yip; Noah Hershkowitz; Greg Severn;
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作者单位

Department of Engineering Physics, University of Wisconsin, Madison, Madison, Wisconsin 53706, USA;

rnDepartment of Engineering Physics, University of Wisconsin, Madison, Madison, Wisconsin 53706, USA;

rnDepartment of Physics, University of San Diego, San Diego, California 92110, USA;

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plasma sheaths; multicomponent and negative-ion plasmas; waves, oscillations, and instabilities in plasmas and intense beams; plasma-material interactions; boundary layer effects;

机译：等离子护套;多组分和负离子等离子体;等离子体和强光束中的波;振荡和不稳定性;等离子体与材料的相互作用边界层效应;

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专利

1. Experimental test of instability enhanced collisional friction for determining ion loss in two ion species plasmas [J] . Hershkowitz N., Yip C., Severn G. D. Physics of plasmas . 2011,第5aPta2期

机译：确定两个离子种类等离子体中离子损失的不稳定性增强碰撞摩擦的实验测试
2. Instability-Enhanced Collisional Friction Can Determine the Bohm Criterion in Multiple-Ion-Species Plasmas [J] . S. D. Baalrud, C. C. Hegna, J. D. Callen Physical review letters . 2009,第20期

机译：不稳定增强的碰撞摩擦可以确定多离子物种等离子体中的欧姆定律
3. Instability-enhanced friction in the presheath of two-ion-species plasmas [J] . Baalrud Scott D., Lafleur Trevor, Fox William, Plasma Sources Science & Technology . 2015,第1期

机译：两离子物种等离子体前鞘中的不稳定性增强摩擦
4. Instability-enhanced collisional friction determines the Bohm criterion in multiple-ion-species plasmas [C] . S. D. Baalrud, C. C. Hegna, J. D. Callen International conference on phenomena in ionized gases;ICPIG 2009 . 2009

机译：不稳定性增强的碰撞摩擦决定了多离子物种等离子体中的Bohm准则
5. Experimental Studies of Multi-Species Pure Ion Plasmas: Cyclotron Modes, Long-Range Collisional Drag, and Non-Linear Langmuir Waves. [D] . Affolter, Matthew. 2016

机译：多物种纯离子等离子体的实验研究：回旋加速器模式，远距离碰撞，非线性Langmuir波。
6. A Procedure for Determining Tire-Road Friction Characteristics Using a Modification of the Magic Formula Based on Experimental Results [O] . Juan A. Cabrera, Juan J. Castillo, Javier Pérez, 2018

机译：根据实验结果修改魔术公式确定轮胎-道路摩擦特性的程序
7. Instability-enhanced friction in the presheath of two-ion-species plasmas [O] . Scott D Baalrud, Trevor Lafleur, William Fox, 2015

机译：在双离子物种等离子体的抗升降中不稳定增强的摩擦

Experimental Test of Instability-Enhanced Collisional Friction for Determining Ion Loss in Two Ion Species Plasmas

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