微空心阴极放电;
利用空心阴极放电灯的激光感生荧光技术进行了原子能级寿命测量的研究。
Using hollow cathode lamps, the atomic state lifetimes have been measured by laser fluorescence spectroscopy.
论述了空心阴极放电时,其内部化学反应生成物的迁移、扩散、蒸发和溅射。
While hollow cathode being discharged, migration, diffusion, evaporation and sputtering of reaction products were analyzed.
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 scale micro-hollow under high pressure.
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.
采用螺旋形空心阴极放电激励紫外铜离子激光器,实验研究了空心阴极放电,激光增益和激光输出功率特性。
The ultraviolet copper ion laser with helical hollow cathode has been experimentally investigated. The discharge and laser gain and output characteristics were studied.
本文祥细分析了溅射型空心阴极放电(SHCD)铜离子激光器的放电、溅射特性和粒子的相互作用过程,建立了放电模型。
A discharge model on the sputtering hollow cathode discharge (SHCD) copper ion laser is established, its characteristics of discharge, sputtering and the particle interaction processes are analysed.
采用三种实验装置(介质阻挡放电装置、空心阴极放电装置和彭宁放电装置)分别测量了不同压强范围内氦等离子体的发射光谱。
The emission spectra of he plasma were measured by using three types of experiment devices: dielectric barrier discharge device, hollow-cathode discharge device and Penning discharge device.
通过研究铜空心阴极激光器阈值特性、气体混合比和放电温度对激光输出功率的影响,给出了一些新的结果。
Some new results are given through investigation on threshold feature of the laser, effect of gas mixture ratio and discharge temperature on the laser output power etc.
结果表明,交流脉冲放电在抑制弧光放电和空心阴极效应方面是非常有效的,对于高铬钢材料表面的离子渗氮作用是明显的。
The results indicate that it has visible effect on restraining arc discharge and hollow cathode discharge as well as ion nitriding on high-chrome steel material surface.
对小孔空心阴极内部放电物理过程作了描述。
This paper describes physics processes of the discharge within an orificed hollow cathode.
根据电离气体中性化条件,初步探讨了在低气压下空心阴极电弧放电的引弧过程,分析了影响低气压下空心阴极电弧放电引弧电压的因。
Aslo the paper has dealed with the mechanism of the hollow cathode vacuum arc discharge and analyzed the starting arc process according to the neutralizing theory of ionized gas.
本文介绍了空心阴极真空电弧焊接技术的特点及其放电机理,讨论了低气压下空心阴极电弧放电与常规电弧放电的不同特点。
The differences of discharge characteristics between the hollow cathode arc under low pressure and the conventional TIG arc under atmosphere are discussed.
电流脉冲上升沿几乎与平均电流、气压或并联电容无关。实验结果表明,自脉冲现象是空心阴极本身的一种特征放电过程。
The self-pulsing current has unchangeable rising time under various conditions. The experimental results indicate that the self-pulsing is a behavior controlled by the discharge process.
采用中频交流脉冲等离子体源进行了抑制弧光放电和空心阴极效应以及离子渗氮工艺的实验。
The power has been used to conduct two sorts of experiments including both to restrain arc discharge and to control hollow cathode discharge.
采用中频交流脉冲等离子体源进行了抑制弧光放电和空心阴极效应以及离子渗氮工艺的实验。
The power has been used to conduct two sorts of experiments including both to restrain arc discharge and to control hollow cathode discharge.
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