A simplified model for microwave plasma interaction in cylindrical cavity resonator is presented.
提出了一个谐振腔内微波与等离子体相互作用的简化模型。
Laser plasma interaction is a typical nonlinear problem and one of the key issues in laser fusion.
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。
Without any form of guiding, the laser-plasma interaction length is limited to the order of Rayleigh distance.
但如果不加以控制,则加速距离被限制在一个瑞利距离以内。
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。
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。
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.
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。
The main research issues for laser plasma interaction are the propagation and absorption of the laser in plasma, parameter instabilities, the generation mechanism of super-thermal particles, etc.
它主要研究激光在等离子体中的传播、吸收,各种参量不稳定性、超热粒子的产生机制等。
Plasma trap GOL-3 holds experiments on studying interaction of plasma with the surface.
在GOL - 3等离子体捕捉器中进行的试验是研究等离子体与物体表面的相互作用。
Plasma membrane plays important roles in many basic biological processes such as cell-cell interaction, signal transduction and material transport.
细胞膜在许多基本生物学作用过程中扮演着重要角色,比如细胞-细胞相互作用、信号转导和物质运输。
Plasma macromolecular substances might advance the interaction among blood cells.
血浆生物大分子可以加强血细胞之间约相互作用。
With the particle collision taken into account, the interaction of plasma with a fixed wall is studied by using a two-fluid model.
在考虑粒子碰撞的情况下,利用二流体模型研究了等离子体与器壁之间的相互作用。
Both the spacecraft charging and the floating potential rising make the spacecraft damaging interaction with space plasma enhance.
航天器充电及其悬浮电位提高都导致航天器与空间等离子体间有害的相互作用增加。
The electron collision frequency is one of the important parameters of the non-magnetized plasma. It plays an important role in the interaction of the plasma with electromagnetic waves.
电子碰撞频率是非磁化等离子体的一个重要参数,它对等离子体与电磁波相互作用的性质具有较大影响。
Since the fast interaction process of IPIB and solid target, we firstly diagnosticate the characteristics of ablation plasma using temporally resolved emission spectroscopy.
针对强脉冲离子束(IPIB)与固体靶相互作用产生烧蚀等离子体的快速剧烈变化过程,本文首次采用发射光谱法来研究烧蚀等离子体的特性。
On the basis of the fast framing pictures' analysis, the frontal velocities of Taylor cavity are measured, and the interaction mechanism between plasma jets and liquid is presented.
通过对照片的分析确定了泰勒空腔的扩展速度,提出了两相流体在界面上的相互作用机理。
The first chapter gives a brief introduction of research background and developing process of interaction of laser pulse with plasma.
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。
Lift is not what we're looking for in the Free Plasma of the Thymus/Thyroid - it is the Gravitational magnetic positioning which we allow when we create the physical interaction with our soul.
(时间01:08?)提升不是我们在胸腺、血浆的自由等离子体中要找的。它是当我们创造与我们灵魂的物理相互作用时我们所允许的磁引力场定位。
In recent years, experiments show that in the plasma loaded high power microwave device may obtain much higher interaction efficiency and output power than the ones absence of plasma.
近年来实验研究发现,等离子体加载高功率微波器件后,器件的输出功率和互作用效率得到显著的提高。
This paper introduces the interaction between microwave and plasma which is induced by laser breakdown in the air.
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。
By considering the interaction between the Ohmic field and the lower-hybrid current driven (LHCD) field, we find two mechanisms affecting the plasma conductivity.
本文研究了由于欧姆电场与驱动电流的低杂波场相互作用造成的影响等离子体电导的两个物理机制。
We study the nonlinear interaction of the magnetized plasma with two electrostatic waves which are transverse uniform magnetic field.
两个波与磁化等离子体的相互作用问题是研究多个波与磁化等离子体作用的基础。
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。
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。
Interaction between electromagnetic wave and plasma is the key of plasma stealth technique, and one of the important direction of aerospace information confrontation.
电磁波与等离子体相互作用是等离子体隐身技术的关键技术,也是空天信息对抗的重要研究方向。
This paper presents the method of designing a acoustic sensor monitoring the shock wave and sound wave along with plasma produced in the process of interaction between short-pulse laser and teeth.
介绍了用于激光和牙齿作用后产生的等离子体监控的声学传感器的设计方法,可用于对激光作用过程的监控。
In the experiment, samples of pure tungsten were placed in the scrape-off layer of HT-7 tokamak to study the interaction between plasma and the surface of samples.
实验中将纯钨样品放入HT - 7托卡马克的刮削层中,以研究等离子体与纯钨表面的作用。
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.
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。
It is researched and discovered that filling plasma into microwave instrument may increase it's output power and interaction efficiency and improve transmission quantity of electronic beam.
近年来研究发现,当在微波器件中填充了等离子体后,器件的输出功率和互作用效率得到显著提高,同时等离子体还可改善电子注的传输质量。
It is researched and discovered that filling plasma into microwave instrument may increase it's output power and interaction efficiency and improve transmission quantity of electronic beam.
近年来研究发现,当在微波器件中填充了等离子体后,器件的输出功率和互作用效率得到显著提高,同时等离子体还可改善电子注的传输质量。
应用推荐