本文给出了发射探针和电容探针测量等离子体电位的实验和方法。
Experiments and methods for measuring plasma potential with emissive probe and capacity probe are described.
某些技术同样适用于粒子能量分析器和束流探针等离子体电位测量。
Some of these techniques can be applied to beam probes and particle energy analyzers.
在两分钟之内可完成等离子体电位、悬浮电位、电子能量分布和电子密度的测量。
Getting the plasma potential, floating potential, energy distribution and density of electron takes no more than two minutes.
在两分钟之内可完成等离子体电位、悬浮电位、电子能量分布和电子密度的测量。
Getting the plasma potential, floating potential, energy distribution and density of electron takes no more than two minute...
测得的等离子体电位轴向分布表明,该装置中能够建立起负电位轴对称串级镜约束位形;
The measured axial potential profile shows that the axisymmetric negative plasma potential tandem mirror confinement configuration has been established;
根据探针收集电子流的理论,提出电子流对探针电位的一次微商的最大值对应着等离子体电位。
Based on the theory of electron current collected by probe, that the maximum derivative of electron current with respect to probe potential corresponds with the plasma potential is presented.
本文叙述了用多栅能量分析器测量静电堵漏会切系统中的离子积分能谱,从而得到离子温度、等离子体电位的原理和方法。
The ion temperature and plasma potential were measured by a multi-grid energy analyzer in an electrostatic plugging cusp system MM-4. The results show-that the plasma potential is?
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.
航天器充电及其悬浮电位提高都导致航天器与空间等离子体间有害的相互作用增加。
Both the spacecraft charging and the floating potential rising make the spacecraft damaging interaction with space plasma enhance.
等离子体的电位梯度跨越栅极,热灯丝将从等子体中抽取的离子超向灯丝。
The plasma potential gradient across the grid and the hot-filament draws ions from the plasma towards the filaments.
本论文的主要工作是基于等离子体聚合膜的优良性质,构建电位型的乙酰胆碱酯酶生物传感器和电流型的过氧化氢生物传感器。
In this paper, a potentiometric acetylcholinesterase biosensor and two kinds of ampermetric hydrogen peroxide biosensors have been developed based on plasma polymerized film.
电子温度、等离子体空间电位变化与等离子体密度呈相同趋势。
The electron temperature and plasma potential show the same tendencies with respect to the ion density.
电子温度、等离子体空间电位变化与等离子体密度呈相同趋势。
The electron temperature and plasma potential show the same tendencies with respect to the ion density.
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