水蒸气对氦在恒定电场中平均电子能量空间振荡的影响

IF 1.1 4区物理与天体物理 Q3 PHYSICS, MULTIDISCIPLINARY

Physics of Wave Phenomena Pub Date : 2023-10-16 DOI:10.3103/S1541308X23050023

N. A. Dyatko, I. V. Kochetov, V. N. Ochkin

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引用次数: 0

摘要

用蒙特卡罗模拟方法研究了纯氦和含有水蒸气混合物的氦在恒定电场中的平均电子能的空间弛豫特性。考虑了氦中的空间弛豫具有阻尼振荡形式的条件。结果表明，即使是少量（0.1%）的水蒸气添加剂也会导致弛豫长度的显著减小，并且在3%H2O时空间振荡几乎消失。还对混合物He:（H2O:H2:O2:H）进行了计算，其中括号中的原子和分子的组成对应于由于水分子的离解和随后的等离子体化学反应而由放电等离子体中的初始水蒸气形成的组成。

本文章由计算机程序翻译，如有差异，请以英文原文为准。

Influence of Water Vapor on the Spatial Oscillations of the Average Electron Energy in Helium in a Constant Electric Field

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Influence of Water Vapor on the Spatial Oscillations of the Average Electron Energy in Helium in a Constant Electric Field

The characteristics of spatial relaxation of the average electron energy in pure helium and in helium containing an admixture of water vapor in a constant electric field have been investigated by Monte Carlo simulation. The conditions under which the spatial relaxation in helium has a form of damped oscillations are considered. It is shown that even a small (0.1%) additive of water vapor leads to a significant decrease in the relaxation length, and the spatial oscillations almost disappear at 3% H₂O. Calculations were also performed for a mixture He : (H₂O : H₂ : O₂ : H), where the composition of atoms and molecules in the parentheses correspond to the composition formed from the initial water vapor in discharge plasma due to the dissociation of water molecules and subsequent plasma-chemical reactions.

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来源期刊

Physics of Wave Phenomena PHYSICS, MULTIDISCIPLINARY-

CiteScore

2.50

自引率

21.40%

发文量

审稿时长

>12 weeks

期刊介绍： Physics of Wave Phenomena publishes original contributions in general and nonlinear wave theory, original experimental results in optics, acoustics and radiophysics. The fields of physics represented in this journal include nonlinear optics, acoustics, and radiophysics; nonlinear effects of any nature including nonlinear dynamics and chaos; phase transitions including light- and sound-induced; laser physics; optical and other spectroscopies; new instruments, methods, and measurements of wave and oscillatory processes; remote sensing of waves in natural media; wave interactions in biophysics, econophysics and other cross-disciplinary areas.