Time-resolved nanosecond imaging of the propagation of a corona-like plasma discharge in water at positive applied voltage polarity

Ceccato PH; Guaitella O; Le Gloahec MR; Rousseau A

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Time-resolved nanosecond imaging of the propagation of a corona-like plasma discharge in water at positive applied voltage polarity

机译：施加正电压极性的水中电晕状等离子体放电传播的时间分辨纳秒成像

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This paper is an experimental study of a pulsed filamentary plasma discharge inside liquid water in pin-to-plane electrode configuration. Time-resolved electrical and imaging diagnostics have been performed. The initiation and the propagation of the discharge have been studied for several experimental parameters. The propagation is continuous and is followed by reilluminations at low water conductivity. The measured propagation velocity of the plasma discharge is 30 km s(-1) for the secondary positive mode. This velocity was found to be surprisingly constant whatever the experimental parameters and especially as a function of the water conductivity.

机译：本文是对针到面电极配置中液态水中脉冲丝状等离子体放电的实验研究。已执行时间分辨的电气和成像诊断。已经针对几个实验参数研究了放电的引发和传播。传播是连续的，随后以低水电导率进行重新照明。对于次级正模式，等离子体放电的测量传播速度为30 km s（-1）。发现该速度出乎意料地恒定，无论实验参数如何，尤其是作为水电导率的函数。

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《Journal of Physics, D. Applied Physics: A Europhysics Journal 》 |2010年第17期| 共12页
作者
Ceccato PH; Guaitella O; Le Gloahec MR; Rousseau A;
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正文语种 eng
中图分类应用物理学 ;
关键词
nanosecond; plasma; polarity;

机译：纳秒;等离子体;极性;

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1. Time-resolved nanosecond imaging of the propagation of a corona-like plasma discharge in water at positive applied voltage polarity [J] . Ceccato PH, Guaitella O, Le Gloahec MR, Journal of Physics, D. Applied Physics: A Europhysics Journal . 2010 ,第17期

机译：施加正电压极性的水中电晕状等离子体放电传播的时间分辨纳秒成像
2. Ignition and propagation of nanosecond pulsed plasmas in distilled water-Negative vs positive polarity applied to a pin electrode [J] . K. Crosse, M. Falke, A. von Keudell Journal of Applied Physics . 2021 ,第21期

机译：纳秒脉冲等离子体在蒸馏水阴性VS阳性极性施加到销电极中的点火和传播
3. Velocity of initial propagation of positive nanosecond discharge in liquid water: dependence on high voltage amplitude and water conductivity [J] . Branislav Pongrác, Milan ?imek, Peter Ondácˇ, Plasma Sources Science & Technology . 2019 ,第2期

机译：液态水中正纳秒放电的初始传播的速度：依赖高压振幅和水电系数
4. Study of nanosecond pulsed corona-like discharge in deionized water by optical methods [C] . Branislav Pongrac, Milan Simek, Martin Clupek, 2017 IEEE 19th International Conference on Dielectric Liquids . 2017

机译：用光学方法研究去离子水中纳秒级脉冲电晕样放电
5. Nanosecond Pulsed Discharge in Water without Bubbles: A Fundamental Study of Initiation, Propagation and Plasma Characteristics [D] . Seepersad, Yohan 2015

机译：无气泡的水中的纳秒脉冲放电：引发，传播和等离子体特性的基础研究
6. Nanosecond Dynamics of a Mimicked Membrane-Water Interface Observed by Time-Resolved Stokes Shift of LAURDAN [O] . Michel Vincent, Béatrice de Foresta, Jacques Gallay 2005

机译：LAURDAN的时间分辨斯托克斯位移观察到的模拟膜-水界面的纳秒动力学
7. Time-resolved nanosecond imaging of the propagation of a corona-like plasma discharge in water at positive applied voltage polarity [O] . Ceccato P H, Guaitella O, Rabec Le Gloahec M, 2010

机译：施加正电压极性的水中电晕状等离子体放电传播的时间分辨纳秒成像

Time-resolved nanosecond imaging of the propagation of a corona-like plasma discharge in water at positive applied voltage polarity

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