Dynamics of Plasma Bullets in a Microsecond-Pulse-Driven Atmospheric-Pressure He Plasma Jet

R. Wang; Y. Gao; C. Zhang; P. Yan; T. Shao

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Dynamics of Plasma Bullets in a Microsecond-Pulse-Driven Atmospheric-Pressure He Plasma Jet

机译：微秒脉冲驱动的常压氦等离子体射流中等离子体子弹的动力学

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摘要

In this paper, an atmospheric-pressure helium plasma jet driven by a home-made microsecond pulse generator was studied. The discharge was characterized by monitoring the voltage–current waveforms and head-on/side-on intensified charge coupled device (ICCD) images. The effects of gas flow rate and pulse frequency on the plasma bullet propagation were studied. The plasma bullets showed a donut shape in the beginning of discharge and then became solid. This was due to the curling up of the plasma plume. A smaller gas flow rate was beneficial for a homogeneous discharge and a higher bullet peak velocity. The pulse frequency had no influence on the bullet peak velocity, but a higher frequency induced a faster bullet speed decay.

机译：本文研究了由自制的微秒脉冲发生器驱动的大气压氦等离子体射流。通过监测电压-电流波形和正面/侧面增强电荷耦合器件（ICCD）图像来表征放电。研究了气体流速和脉冲频率对等离子体子弹传播的影响。等离子体子弹在放电开始时呈甜甜圈形状，然后变成固体。这是由于等离子羽流卷曲所致。较小的气体流速有利于均匀排出和较高的子弹峰速度。脉冲频率对子弹峰值速度没有影响，但是较高的频率会导致子弹速度衰减更快。

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来源
《IEEE Transactions on Plasma Science》 |2016年第4期|393-397|共5页
作者
R. Wang; Y. Gao; C. Zhang; P. Yan; T. Shao;
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作者单位

Chinese Academy of Sciences, Institute of Electrical Engineering, Beijing, China;

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收录信息美国《科学引文索引》(SCI);美国《工程索引》(EI);
原文格式 PDF
正文语种 eng
中图分类
关键词
Bullet velocity; gas flow rate; helium; jet appearance; microsecond-pulse generator; plasma bullet; plasma jet; pulse frequency; pulse frequency.;

机译：子弹速度;气体流速;氦气;射流外观;微秒脉冲发生器;等离子子弹;等离子射流;脉冲频率;脉冲频率;

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Dynamics of Plasma Bullets in a Microsecond-Pulse-Driven Atmospheric-Pressure He Plasma Jet

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