微空心阴极放电 MHCD
A three-dimensional, time-dependent, and self-consistent fluid model is developed to simulate the helium plasma in a cylindrical microhollow cathode (MHCD) with reasonable boundary conditions. The particle density, electric potential, electron energy, and the distribution of the electric field are calculated.
给出了圆筒形微空心阴极氦气放电的三维、时域、自恰流体方程组(粒子连续性方程、电子能量平衡方程和泊松方程)及其稳态的差分方程组和合理的边界条件,并利用计算机模拟计算,得出了放电稳态时形成的粒子密度、电子平均能量、电位等值线和电场分布图。
参考来源 - 微空心阴极放电的计算机模拟·2,447,543篇论文数据,部分数据来源于NoteExpress
微空心阴极放电;
本文介绍了微空心阴极放电的研究进展,分析了其光谱特性,最后讨论了它的应用前景。
In this paper, we introduce the development of research on MHCD, and discuss its spectra characteristics. Finally, the potential of its application is outlooked.
微空心阴极放电(MHCD)是在普通空心阴极放电的基础上提出的一种高气压下亚毫米级微放电技术。
Micro-hollow cathode discharge (MHCD) is a newly advanced micro-discharge technique based on ordinary cathode discharge in a sub-millimeter level micro-hollow under high pressure.
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