The ponderomotive potential structure of a multimode combined intense laser beam is studied.
本文研究了多模组合强激光束有质动力势的结构。
Chapter 6 is the theoretical analysis of the electron acceleration by crossed intense laser light in vacuum.
第六章,介绍真空中用两束交叉强激光加速电子的理论分析。
Such intense lasers are better suited to power-beaming because the cells that collect the laser light can be smaller.
这类密集型激光器更加适用于能源传送,因为这样一来用来搜集激光的电源就可以更小巧了。
In the second chapter, we investigate mono-energetic proton beams from the foils irradiated by intense laser pulses.
第二章介绍了超强激光脉冲辐照薄靶时单能质子的产生。
Chapter 3: The effects of weakly relativistic nonlinearity of intense laser light propagating in plasmas is analyzed.
第三章,研究了强激光在等离子体中传输的弱相对论性非线性效应。
Large spontaneous magnetic field is produced during the interaction of ultra-short and ultra-intense laser with solids.
超短超强激光与固体靶相互作用产生强的自生磁场。
This paper reports an experiment on the nonlinear absorption of HC1 gas molecule for the 6-order harmonic intense laser.
本文报告了HC 1气体分子对六泛频强激光的非线性吸收的实验结果。
The convertion of intense laser light into soft X ray radiation during the heatins of high-Zmaterial is an important topic.
光转换是激光—等离子体相互作用中的一个重要研究课题。
A novel experiment has been carried out for studying the interaction between ultra short intense laser pulses and glass micro capillary.
进行了超短强激光脉冲与玻璃微毛细管相互作用的探索性研究。
Chapter 3 is an introduction to the project of electron acceleration by intense laser in vacuum, some acceleration models are also mentioned.
第三章介绍真空中用强激光加速电子方案的提出及模型。
Finally the process is used to compute the ionization of the atom in intense laser field, and the result is identical to the physical meaning.
最后方法被用于计算强激光场中原子的电离,得到的结果与物理理论分析一致。
The studies of the wavelet structures of the molecular excitations with the high intense laser are very active in the strong laser field physics.
利用强激光场电离和离解分子来研究分子激发态的波包结构是强场物理的重要研究方向。
The nonlinear Schrdinger equation of laser-plasma interaction is used to study the self-compression of femtosecond intense laser pulse in plasma.
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。
In this thesis, we briefly introduced the basic concepts of intense laser field, relative atomic experimental phenomena and theories on atomic ionization.
本文首先简要介绍了强场物理的基本概念和相关的原子物理现象,以及研究原子电离现象的有关理论。
The relativistic effect and wakefield effect on the propagation of an intense laser pulse in plasma are compared in the resonant and non-resonant cases in detail.
对共振和非共振情形下尾波场效应与相对论效应对强激光脉冲在稀薄等离子体中传输的影响作了详细比较。
When atoms and molecules are radiated by ultra intense laser pulse, a series of new non-linear phenomena which can't be interpreted by perturbation theory appears.
实验表明在超强超短激光脉冲的作用下,原子分子会出现一系列微扰理论无法解释的新现象。
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.
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。
Following 133 hours of firing a beam of intense laser light which created nitric acid particles in the air it resulted in binding the water molecules together to create droplets.
在连续133小小时向空中发射密集激光束从而在空中制造出硝酸粒子后,空气中的水分子凝聚在一起形成了小水滴。
Bose-Einstein condensates (BECs) trapped in external potential and molecular in intense laser field are two typical complex systems, which are governed by nonlinear interaction.
外势阱中的玻色-爱因斯坦凝聚体与强场中的分子体系是两个典型的、具有非线性相互作用的复杂体系。
The specimen irradiated by intense laser generates distinct plastic deformation, and the profile of axial cross section of specimen after shocking is similar to a coniform figure.
结果表明:在强激光冲击下,试样发生显著的塑性变形,变形后轴截面形状为类圆锥形;
For a sufficiently short and intense laser, there is strong acceleration of the electron inside the laser pulse, and the corresponding wake field acceleration becomes much weaker.
对于更短的强激光脉冲,脉冲内电子的有质动力加速占据主导地位,加速电子能够有很高的能量,而此时尾波场加速则变得很弱。
Pivotal parameters and restricted condition of the grating-size-limited compressor in an ultra-short, ultra-intense laser system are analyzed, and three basic parameters are obtained.
分析了超短超强激光系统中有限尺寸光栅压缩器设计的关键物理参数及约束条件,得到了压缩器优化的三项基本变量。
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.
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。
This study can help us to understand the classical and quantum physics theory in the condition of ultra-intense laser beam, and contribute to scientific research of strong field physics.
这一研究可以帮助理解在超强激光条件下的经典的和量子的物理理论,可以促进强场物理领域的科学研究。
Using the one-dimensional particle-in-cell simulation code, we have studied the generation and redshift of harmonics from overcritical plasma layer irradiated by ultrashort intense laser pulses.
用一维粒子模拟程序研究了超短脉冲强激光与超临界密度等离子体平板作用产生的高次谐波。
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.
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 ionization of one dimensional model atoms in ultra intense laser fields has been studied by solving time dependent Schrdinger equation using the least square fitting and the Runge Kutta methods.
利用最小二乘法和龙格库塔方法求解含时薛定谔方程,研究了一维原子模型在超强激光场中的电离。
Moreover, engineers have worked out how to make laser beams more intense by using short lengths of optical fibre to narrow the beam.
此外,工程师们还通过光纤的短长缩小了传送的光束,由此找到了让激光传送器能源更加密集的方法。
In the new study, the physicists shot xenon atoms with FLASH, an X-ray laser that USES intense photons in the extreme ultraviolet energy range, about forty times the energy of visible light.
在这个新的研究中,物理学家们用一种处在极紫外能量范围的强光子X射线激光器发出的闪光照射氙原子,所用闪光的能量是可见光能量的40倍。
The glare from the laser is intense enough to make it impossible to aim weapons like AK47s or RPGs, but doesn't have a permanent effect.
激光发出的眩光很强,足够瞄准像ak47或RPG之类的武器,但不具有永久效果。
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