在关于激光聚变30年的争论中,一个重要的潜在障碍就是激光在靶腔内产生的等离子体。
During 30 years of the laser fusion debate, one significant potential hurdle to the process has been the "plasma" that the lasers will create in the hohlraum.
通常地,重吸收负性氯离子产生管腔内正电压,这可驱使细胞旁正性钙和镁吸收。
Normally, reabsorption of the negative chloride ions promotes a lumen-positive voltage, driving paracellular positive calcium and magnesium absorption.
讨论了腔中反应过程对离子准分子形成的影响。
The effect of the reactions on production of ionic excimer is discussed.
利用色散吸收介质中电磁场的正则量子化方法,研究等离子体加载对色散吸收介质光腔系统量子性质的影响。
The influence of the plasma loading on the quantum character of absorbing and dispersive cavity is investigated by the canonical quantum method of the electromagnetic field.
微波等离子推力器(mpt)谐振腔只有在谐振状态下,微波能量才能被高效地用于加热工质产生推力。
Only when the resonant cavity of microwave Plasma Thruster (MPT) is under the resonant state, the microwave energy can heat propellant gas to produce thrust efficiently.
提出了一个谐振腔内微波与等离子体相互作用的简化模型。
A simplified model for microwave plasma interaction in cylindrical cavity resonator is presented.
研究等离子体加载对色散吸收介质光腔系统量子性质的影响。
The influence of the plasma loading on the quantum character of the absorbing and dispersive cavity is investigated.
由LPI2D程序计算的激光等离子体srs谱较好地再现了实验谱,并由此表明SRS谱与腔靶晕区等离子体密度分布密切相关。
SRS theoretical spectrum from LPI2D code are agreeable with experiment spectrum. The results show SRS spectrum are dependent closed in plasma density distribution in cavity target.
在另一实施例中,本发明是提供一种在等离子处理腔室中大面积基板上沉积均一膜的方法。
In another embodiment, a method is provided for depositing a uniform film on a large-area substrate in a plasma-processing chamber.
在另一实施例中,一等离子处理腔室是适用以建立一中性电流分流路径,其可以减少电流,其中该电流是流动通过腔室中一产生磁场的特征结构。
In another embodiment, a plasma-processing chamber is adapted to create a neutral current bypass path that reduces electric current flow through a magnetic field-generating feature in the chamber.
利用二次开发后的FLUENT软件对沉积腔内金刚石膜上方的等离子体射流的流动和传热进行数值模拟。
The flowing and conducting heat of plasma jet over the diamond film were simulated by using the reprogramming software FLUENT.
微波等离子推力器(MPT)的最大优点是微波在谐振腔内放电使工质形成悬浮的等离子体,没有电极的烧蚀与寿命问题。
Microwave plasma thruster can generate free-floating plasma brought about by microwave discharge breakdown gas in resonant cavity without the service life problem produced by electrode ablation.
微波等离子推力器(MPT)的最大优点是微波在谐振腔内放电使工质形成悬浮的等离子体,没有电极的烧蚀与寿命问题。
Microwave plasma thruster can generate free-floating plasma brought about by microwave discharge breakdown gas in resonant cavity without the service life problem produced by electrode ablation.
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