介绍壁稳弧等离子体温度测量方法的理论依据和测量装置,并进行了误差分析。
The theoretical basis and measuring apparatus of the temperature measuring method for wall stabilized arc plasma are described, and the errors of measurement are estimated.
研究了等离子体温度、密度和共振层位置等参数及波的入射角对波迹和功率沉积分布的影响。
Influences of the incident Angle for wave and plasma parameters such as temperature, density and location of resonance layer on wave traces and power deposition distribution were studied.
经过考察研究并借鉴国内外研究成果的基础上,确定采用模拟焊接试验来研究孔内等离子体温度。
It is determined to adopt simulation experimentation to study the plasma temperature inside the keyhole on the base of studying the achievement at home and abroad.
利用复合辐射吸收边测量了作用过程中毛细管等离子体温度,表明随着激光能量增加电子温度升高。
The plasma temperature is estimated by the recombination edge method and found that the temperature is increased with the increasing of the laser pulse energy.
本文根据LEO中等离子体温度低、密度高、德拜长度小的特点,采用薄鞘层近似,计算了离子收集电流;
On the basis of the plasma conditions in LEO. We adopt plasma thin sheath model and calculate ion collection current.
喷气能降低删削层(SOL)处等离子体温度,注入的杂质增加了SOL处的辐射功率,使靶板的负载降低。
Puffing gas can reduce the plasma temperature in the scrape off layer (SOL). Injected impurity can increase the radiation power in SOL. Both of them make the heat load on the plate target smaller.
决定阴极等离子体膨胀速度的因素主要有二极管区的电场强度、等离子体的密度梯度和等离子体温度梯度等因素。
Cathode plasma moves ahead to the anode and changes diode effective gap. Plasma's expanding velocity is determined by electric field, density gradient and temperature gradient.
阐述了激光诱导击穿技术的基本原理,研究了激光诱导击穿光谱技术在探测等离子体温度方面的应用,并进行了实验研究。
In this paper, the technology of laser induced breakdown spectroscopy (LIBS) is discussed in the application area of plasmas temperature detection.
文章提出了低压射频等离子体实验设计体系,应用飞行时间谱仪和Langmuir单探针,测得Langmuir型V - I曲线,其中包括等离子体温度信息。
The paper discusses the design of the experiment of low press radio-frequency plasma, using TFS and Langmuir to get V-Icurve including temperature of plasma body.
其技术优势在于大部分能量被用来加速电子,产生活性粒子而等离子体整体温度接近室温。
The main advantage is that most of the energy is used to accelerate the electrons to produce active particles, however, the temperature of the plasma is on the order of room temperature.
其技术优势在于大部分能量被用来加速电子,产生活性粒子而等离子体整体温度接近室温。
The main advantage is that most of the energy is used to accelerate the electrons to produce active particles, however, the temperature of the plasma is on the order of room temperature.
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