Normally, such electron acceleration is difficult or impossible because the plasmasphere's high plasma density prevents the chorus waves from efficiently interacting with particles.
由于等离子层中等离子的高浓度会阻止哨声波与粒子之间相互影响的有效性,故通常此类的电子加速是很难或几乎是不可能实现的。
It influences greatly the plasma wake -field acceleration, energy absorption, energy transport, the dynamics behaviors of electrons and ions, expansion of plasma, etc.
它对等离子体尾流加速、能量吸收、热输运、电子及离子的动力学行为、等离子体膨胀等多方面都有很大的影响。
Both the heating of plasma and the acceleration of particles are important topics in plasma physics and plasma astrophysics.
研究等离子体加热和粒子加速问题,是等离子体物理和等离子体天体物理中的重要课题。
The formed solitons are usually found to move with small velocity, which results in the formation of plasma cavities and the acceleration of ions to high energy.
这种孤子波的形成及其演化与离子运动有极大关系。用相对论强激光脉冲可以产生达到相对论振幅的电磁场孤子波,后者可以把离子加速到非常高的能量。
The main research content of this paper is the acceleration of electrons in plasma with two very intense, short and circularly polarized laser pulses with a certain Angle between them.
本文的研究重点是两束成一定角度的超短超强圆偏振激光脉冲对等离子体中电子的加速问题。
The calefaction and acceleration process of ceramic powders in plasma spray were studied by numerical simulation.
通过数值模拟研究了等离子喷涂陶瓷粒子的加热加速行为。
We also discuss the influence of temperature on plasma wake field acceleration.
讨论了温度对等离子体尾波加速的影响。
Generation mechanism of plasma wave is introduced, as well as the trapping and acceleration of electrons in the plasma wave. Some limits on laser plasma accelerators are discussed associated with...
介绍了等离子体波的产生机理及等离子体波中电子的俘获和加速,并讨论了存在于激光等离子体加速器中的一些限制和今后发展前景。
The influence of particulates on plasma are discussed in this paper. The concrete calculations are made by using the models of force and acceleration.
本文论述了粉粒在等离子体中的影响,并利用所提供的受力和加速度模型,进行了具体计算。
Finally, some simulations and discussions on stochastic acceleration of electrons in plasma with two ultra intense circularly polarized laser pulses have been done.
最后,我们模拟并讨论了两束超强圆偏振激光脉冲对等离子体中电子的随机加速问题。
Through the analysis, the strong Langmuir plasmon acceleration mechanism is effective in explaining the particles acceleration in laser-plasma interaction.
分析可知,强朗缪尔激元的湍动加速机制解释激光等离子体中的离子或电子的加速问题是非常有效地。
Through the analysis, the strong Langmuir plasmon acceleration mechanism is effective in explaining the particles acceleration in laser-plasma interaction.
分析可知,强朗缪尔激元的湍动加速机制解释激光等离子体中的离子或电子的加速问题是非常有效地。
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