阴极的温度是影响大电流辉光放电稳定工作的重要因素。
Cathode temperature is one of the most important factors influencing the stability of high current glow discharge.
大电流热阴极辉光放电用于等离子体化学气相沉积金刚石膜,有效地提高了沉积速率和膜品质。
Large current hot cathode glow discharge was used for plasma chemical vapor deposition of diamond films. It improved deposition rate and films quality efficiently.
它产生的高气压高电流密度辉光放电等离子体能够用来制作平面等离子体显示或光源。
With the micro-discharge array, the glow discharge plasmas with high-pressure and high-current density can be formed to make DC plasma display panel.
直流辉光放电过程中需要控制的三个重要工作参数为放电电流、放电电压和放电室内氩气气压。
There are three important parameters in the DC glow discharge process, the discharge current, discharge voltage and argon pressure in discharge source.
重点阐述大气压下辉光放电(APGD)技术的现状,解释了电子雪崩模型和流注放电理论,并以电压- 电流波形图和电压-电荷李萨育图鉴别介质阻挡放电与大气压下辉光放电。
The common models to explain APGD are electron avalanche model and streamer discharge model. APGD and DBD can be distinguished by voltage-current waveform and voltage-charge Lissajous figure.
重点阐述大气压下辉光放电(APGD)技术的现状,解释了电子雪崩模型和流注放电理论,并以电压- 电流波形图和电压-电荷李萨育图鉴别介质阻挡放电与大气压下辉光放电。
The common models to explain APGD are electron avalanche model and streamer discharge model. APGD and DBD can be distinguished by voltage-current waveform and voltage-charge Lissajous figure.
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