激光等离子体相互作用是一个典型的非线性问题,是激光聚变研究的核心问题之一。
Laser plasma interaction is a typical nonlinear problem and one of the key issues in laser fusion.
不用考虑细节,应当指出的是,处理激光等离子体相互作用可以产生与下面描述的流体动力学计算相同的特性。
Without going into detail, it should be mentioned that the treatment of laser plasma interaction resulted in the same properties as the following described hydrodynamic calculations.
文章从激光等离子体相互作用的非线性薛定谔方程出发,理论研究了飞秒强激光脉冲在等离子体中的自压缩行为。
The nonlinear Schrdinger equation of laser-plasma interaction is used to study the self-compression of femtosecond intense laser pulse in plasma.
论文中我们阐述了激光等离子体的性质,产生机制及其相互作用。
In this thesis, we set forth the properties, generation and interaction of laser plasmas.
第一次讨论了超强超短激光与部分离化等离子体相互作用中,束缚电子的振荡辐射和电离问题。
In this paper, the problem of surge radiation and ionization of bound electron in the interaction of ultra-short laser pulse and partial ionized plasma was studied for the first time.
第一章为综述,简单介绍了激光与等离子体相互作用的研究背景和进展、研究内容、特点以及研究方法等。
The first chapter gives a brief introduction of research background and developing process of interaction of laser pulse with plasma.
理论大体上可分为两种:1)激光和等离子体相互作用产生高次谐波;
Theory could be divided into two types roughly : 1) The laser and plasma interactions produce high harmonics;
本文研究了微波与激光击穿空气形成的等离子体的相互作用。
This paper introduces the interaction between microwave and plasma which is induced by laser breakdown in the air.
采用YAG脉冲激光的四倍频输出与两平行平面极板间空气相互作用产生等离子体。
Plasma was instantly produced after the interaction between the air and the YAG laser pulse quadruple output in the interspace of parallel-plate electrodes in the vacuum chamber.
利用数值模拟结果解释了激光等离子体中的成丝效应、朗缪尔波的激发及坍塌过程、朗缪尔等离激元与横等离激元相互作用过程中产生的能量均分等现象;
The simulated results can be used to explain the laser plasmas filamentation, the langmuir wave's excitation and collapse, and the energy equilibration over both langmuir wave and transverse wave.
光转换是激光—等离子体相互作用中的一个重要研究课题。
The convertion of intense laser light into soft X ray radiation during the heatins of high-Zmaterial is an important topic.
激光与平面型等离子体相互作用,会出现各类非线性过程。
There are several kinds of nonlinear processes in the interaction between laser light and plane plasmas.
第一章:本章介绍了超短强激光在等离子体隧道中传输研究的背景,并回顾了激光和等离子体相互作用物理。
Chapter 1: the background of the study of propagation of ultrashort intense laser in plasma channel and a survey of the interaction of laser with plasma were introduced.
对线极化、圆极化的超短超强激光脉冲与靶前有一段低密度预等离子体的固体靶的相互作用进行了理论和粒子模拟研究。
The interaction between an ultra-short ultra-intense laser pulse and a solid target with a low density pre-plasma is examined. Both linear and circular polarizations of the laser are considered.
重点阐述了超短超强激光-等离子体相互作用中自生磁场对谐波发射影响的理论以及根据该理论完成的实验测定。
Specially, the impact of the self-generation magnetic field on the harmonious emission is emphasized, including the experiment according the theory.
重点阐述了超短超强激光-等离子体相互作用中自生磁场对谐波发射影响的理论以及根据该理论完成的实验测定。
Specially, the impact of the self-generation magnetic field on the harmonious emission is emphasized, including the experiment according the theory.
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