振幅足够大的静电波在等离子体中可使带电粒子的运动轨道发生改变。
The trajectory of charged particles in a plasma will be changed by electrostatic waves with large amplitude.
在等离子体中,鞘层在控制带电粒子向极板(或靶材)方向运动方面起着至关重要的作用。
In plasma, the sheath plays a crucial role in controlling the movement of the charged particles towards the electrodes (or the target).
空间等离子体和航天器表面的相互作用常会导致航天器带电,造成危害。
Interactions between hazardous space plasmas and spacecraft surfaces often result in spacecraft charging.
当气体变得异常炽热,电子脱离了原子核,留下一团带电荷的粒子,等离子体就形成了。
Plasma forms when gas becomes so hot that electrons are stripped from atomic nuclei, leaving behind a soup of charged particles.
带电尘埃广泛存在于空间等离子体,实验室聚变装置及等离子体辅助加工设备中。
Charged dusts exist widely in space plasma, laboratory fusion devices and plasma assistant processing equipment.
本文利用考虑三体效应的量子等离子体动力学方程,推导了带电粒子在高温等离子体中减速公式。
The slowing down formulae of charged particles in a plasma are derived by the kinetic equation of quantum plasma, taking account of the three-body effect.
带电的尘埃粒子广泛存在于宇宙空间、实验室的等离子体装置中和材料的等离子体加工等环境中。
Charged dust particles exist extensively in plasmas produced in space, laboratory as well as for plasma processing.
金属中的表面等离子体共振是描述其导带电子在电磁场作用下集体振荡的一个物理概念。
Plasmonic behavior of metal is a physical concept that describes the collective oscillation of conducting electrons in it.
金属中的表面等离子体共振是描述其导带电子在电磁场作用下集体振荡的一个物理概念。
Plasmonic behavior of metal is a physical concept that describes the collective oscillation of conducting electrons in it.
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