研制了超热电子磁谱仪,介绍了谱仪的工作原理、设计思想、结构和主要技术指标。
The hot electron magnetic spectrometer was developed and its principle, (designing) idea, structure and index were introduced.
如果考虑超热电子的产生和加热机制,则占主导地位的加热机制是共振吸收对电子的加热。
If considering the generated and acceleration mechanism of hot electrons, the main acceleration of hot electron comes from resonance absorption.
实验研究了超短超强激光脉冲与薄膜靶相互作用中产生的超热电子角分布随激光入射角的变化。
The effect of laser incidence angle on the angular distribution of hot electrons generated in the interaction of an ultrashort intense laser pulse with the foil target are investigated.
光学渡越辐射(OTR)测量结果显示:OTR是由于超热电子输运穿越固体靶所致,而辐射区域呈圆盘状、有发散角、有光强分布;
Due Optical Transition Radiation(OTR) is produced by the hot electrons transport through solid targets, region of OTR is have lager radiation angle and optical intensity distribution.
但是由于开展时间短,快点火机制中的许多物理还需要仔细研究,其中超热电子在稠密等离子体中的输运问题就是一个复杂,然而对快点火机制至关重要的物理问题。
But for its short time research, there are lot of physics need to be studied, among which, the transport of relativistic electrons in dense plasmas is an interesting and important subject.
但是由于开展时间短,快点火机制中的许多物理还需要仔细研究,其中超热电子在稠密等离子体中的输运问题就是一个复杂,然而对快点火机制至关重要的物理问题。
But for its short time research, there are lot of physics need to be studied, among which, the transport of relativistic electrons in dense plasmas is an interesting and important subject.
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