浸没在高负电位等离子体中的金属电极表面的电场

IF 0.9 4区 物理与天体物理 Q4 PHYSICS, FLUIDS & PLASMAS Plasma Physics Reports Pub Date : 2023-04-17 DOI:10.1134/S1063780X22601365
V. A. Ivanov
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引用次数: 0

摘要

当参数|eΨ|/Te≠1时,在由电子和带电荷e的单电荷离子组成的均匀非等温无碰撞等离子体中,当电子温度为Te,负电势值较高Ψ时,得到电极表面电场泊松方程的解析解。发现在高电位电极附近违反准中性的等离子体层L与德拜长度rD成正比地增加,与参数[eΨ/2Te]3/4成正比,为L = rD[eΨ/2Te]3/4。计算了等离子体负极表面的电场。结果表明,在密度为1010 ~ 1013 cm-3、电子温度为1 ~ 10 eV的实验室等离子体中,在参数eΨ/Te≠1的高电位条件下,用公式E = Ψ/L计算的电极表面附近的电场比在参数eΨ/Te < 1的低电位条件下用经典公式E = Ψ/rD计算的电场要小200倍。
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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Electric Field on the Surface of a Metal Electrode Immersed in Plasma at a High Negative Potential

An analytical solution of the Poisson’s equation is found for the electric field on the surface of the electrode immersed in a homogeneous non-isothermal collisionless plasma consisting of electrons and single-charged ions with charge e, with electron temperature Te and high values of negative electric potential Ψ when the parameter |eΨ|/Te ≫ 1. It is found that the plasma layer L with violated quasi neutrality near the high-potential electrode increases compared to the Debye length rD proportionally to the parameter [eΨ/2Te]3/4, as L = rD[eΨ/2Te]3/4. The electric field was calculated on the surface of the negative electrode in plasma. It is shown that in a laboratory plasma with density in the range 1010–1013 cm–3 and electron temperature from 1 to 10 eV, at high potential for the parameter eΨ/Te ≫ 1, the electric field calculated by the obtained formula E = Ψ/L near the surface of the electrode up to 200 times lower than the fields calculated by the classical formula E = Ψ/rD, which was obtained at low potential and for the parameter eΨ/Te ≪ 1.

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来源期刊
Plasma Physics Reports
Plasma Physics Reports 物理-物理:流体与等离子体
CiteScore
1.90
自引率
36.40%
发文量
104
审稿时长
4-8 weeks
期刊介绍: Plasma Physics Reports is a peer reviewed journal devoted to plasma physics. The journal covers the following topics: high-temperature plasma physics related to the problem of controlled nuclear fusion based on magnetic and inertial confinement; physics of cosmic plasma, including magnetosphere plasma, sun and stellar plasma, etc.; gas discharge plasma and plasma generated by laser and particle beams. The journal also publishes papers on such related topics as plasma electronics, generation of radiation in plasma, and plasma diagnostics. As well as other original communications, the journal publishes topical reviews and conference proceedings.
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