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1)  energy distributions/microwave plasma sheath
能量分布/微波等离子体鞘层
2)  plasma sheath
等离子体鞘层
1.
The distribution of dust particles in the plasma sheath;
等离子体鞘层中尘埃粒子的分布特性
2.
Applying the plasma sheath models given by Edlberg and Aydil, the charging effect and forces acting on macr opart icles are analyzed and calculated in pulsed-bias arc ion plating, which gives an evidence to the experimental phenomenon and physical model in which macroparticles would be repulsed from electric force and hence are significantly reduced.
用Edelberg和Aydil的等离子体鞘层模型,对电弧离子镀中大颗粒在脉冲偏压鞘层中的带电及受力情况进行了分析 和计算,为大颗粒由于带负电而受到电场力排斥从而被净化的实验现象和物理模型提供佐证。
3.
The research started on investigating the character of plasma sheath on liquid-solid sur- face.
本文从DBD液固表面等离子体鞘层的研究出发,通过建立流体力学方程组来确定鞘层内的电子浓度,进而确定电子温度;借助碰撞理论和Boltzrnann方程,给出反应速率常数随电子温度变化曲线。
3)  plasmas (physics)/sheath
等离子体/鞘层
4)  plasma sheath
等离子鞘层
1.
On the basis of the theory of plasma sheath, there is a negative potential (sheath voltage) near the surface of the de.
文中提出了一种无源探针检测等离子云的方法,该方法更加证明了等离子焰检测中等离子鞘层理论的重要性。
5)  plasma sheath
等离子体鞘
1.
The effects of different high temperature air models on electron density in the plasma sheath of the reentry capsule are studied, including the comparison between chemical non-equilibrium model and thermochemical non-equilibrium model, as well as that between 7 species model and 11 species model.
研究高温空气的不同物理模型对载人飞船返回舱等离子体鞘电子密度的影响 ,包括热力平衡的化学非平衡模型与热力、化学都是非平衡的模型的比较 ,以及七组元模型与十一组元模型的比较。
2.
During the reentering process,the RCS of the reentry capsule of Shenzhou spacecraft changed violently because of plasma sheath and wake.
"神舟"飞船返回舱在再入过程中,由于产生等离子体鞘套和尾流,其雷达散射截面(RCS)出现剧烈变化,对地面测量雷达的跟踪产生影响。
3.
While the reentry target passes through the earth s atmosphere at ultrasonic speed, the RCS of the Reentry Capsule changed violently because of the plasma sheath and wake.
当再入目标高超声速穿越大气层时,将产生等离子体鞘套和尾流,其雷达散射特性受到目标包覆等离子体参数变化的影响而产生剧烈波动。
6)  Collisional plasma sheath
碰撞等离子体鞘层
补充资料:电感耦合微波等离子体焰炬
分子式:
CAS号:

性质: 由微波感生、用于发射光谱分析的等离子体光源。将发生等离子体焰炬的石英管,置于微波谐振腔中,以2450MHz的微波激发。产生的光谱简单,背景低,耗气与耗电量小。

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