The diagnostic results show that the characteristics of electron temperature and electron density distributions depend strongly on the target structure.
诊断结果表明,激光等离子体各参数的空间分布与其靶结构有着十分密切的关系。
The radiated power of impurity ions varying with time and electron temperature for given the profiles of electron temperature and density is calculated, and the corresponding physics is discussed.
在给定电子温度和密度剖面下,给出了杂质离子辐射率随时间和电子温度变化的计算结果,并讨论了相关物理过程。
Electron temperature and electron density reach their saturation in several seconds and a few minutes, respectively.
电子温度和电子密度的变化分别在加热开始后几十秒和几分钟内达到饱和。
The plasma parameter, such as electron temperature and electron density, can be diagnosed by the static electricity probe.
利用静电探针可以对等离子体的基本参数如:电子温度和电子密度进行测量诊断。
Conclusion: HCl and HAc result in the decrease of excitation temperature and electron density. HAc has more obvious impact on excitation temperature and electron density.
结论:醋酸、盐酸使等离子体激发温度、电子密度降低,醋酸比盐酸对等离子体激发温度、电子密度影响更显著。
Langmuir probe, as a simple and ideal technology, is used to measure many plasma parameters including plasma spatial potential, electron temperature, electron density, ion density and so on.
通过伸入放电室中的Langmuir探针,可以测量包括等离子体电位、电子温度、电子密度、离子密度在内的许多表征等离子体的重要参数。
Langmuir probe, as a simple and ideal technology, is used to measure many plasma parameters including plasma spatial potential, electron temperature, electron density, ion density and so on.
通过伸入放电室中的Langmuir探针,可以测量包括等离子体电位、电子温度、电子密度、离子密度在内的许多表征等离子体的重要参数。
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