| 1. | There exists a nonlinear relation between the plasma density and the temporal growth rate
等离子体密度和增长率、工作频率也存在一个饱和关系。 |
| 2. | The second population is pulled forwards by the propagating energetic electrons . the third energetic ion population emerg
研究了前、后表面等离子体密度标长对高能离子产生的影响。 |
| 3. | On the basis of the plasma density grating , we present an equivalent model to describe the non - uniform property of the plasma grating
二、在等离子体密度栅的基础上,我们提出了一个等效的模型。 |
| 4. | When the plasma density increases , the operating frequency also increases slightly , the temporal growth rate increases as well
另外,等离子体密度的增加,也带来工作频率的略微升高,同时增长率也发生变化。 |
| 5. | Under a certain magnetic field , the density and stability of anode plasma determines the ion current density and its fluctuation
在确定磁场强度下,阳极等离子体密度和稳定性决定了引出离子束流密度的大小及其波动幅度。 |
| 6. | The relation between collisional absorption of the em - wave and the plasma density , plasma collision frequency , and incident wave frequency is obtained
给出了不均匀非磁化等离子体密度、等离子体碰撞频率、电磁波频率与碰撞吸收的关系。 |
| 7. | In order to construct the perfect technique for this measurement , the theory and the experiments were extensively and deeply studied
本文以建立较完善的激光差分干涉测量稠密等离子体密度技术为目的,进行了深入而且广泛的理论和实验研究。 |
| 8. | However , the plasma density ca n ' t be increase without limit , only under a critical plasma density , can the radiation conditions be satisfied
但是,等离子体密度的增加并不是无限度的。只有在低于某一等离子体密度临界值时,腔体才能谐振。 |
| 9. | Through the interactions the moving bodies make the density of plasma around them disturb . this disturbance of density excites different kinds of plasma waves
当飞行体运动时,通过飞行体与等离子体的相互作用,使周围等离子体密度产生扰动。 |
| 10. | In this dissertation , the background and the significance of differential interferometry for dense plasma density measurement were stated
本文阐述了激光差分干涉测量稠密等离子密度技术的研究背景和意义,综述了国内外等离子体密度测量技术的研究现状。 |
