带电粒子流

结果表明，在等离子体参量不稳定性的激发过程中，Langmuir波和离子声波得以增强以及带电粒子流由于泵波与Langmuir波（离子声波）的耦合而加速；

The results show that Langmuir and ion-acoustic wave get enhanced and the charged particles can be accelerated by the coupling of wave-wave .

在不考虑碰撞机制的情况下，研究了外加高频电磁场（泵波）下等离子体中Langmuir波和离子声波的增强以及带电粒子流的加速。

Enhancement of Langmuir and ion-acoustic wave and acceleration of the electron in a collisionless plasma , in the presence of an external transverse field , were investigated .

一个就是我们的TerminationShock，由于深层空间内射出的带电粒子流所形成的气压的作用，太阳所射出的离子体带电粒子流——也就是我们所熟知的“太阳风”——在这里骤然减速。

One is the Termination Shock , where the charged particles blown out by the sun - and known as the " solar wind " - slow down abruptly , thanks to the pressure from other charged particles coming from deep space .

关于带电粒子流和位移电流的联系

The Connection between the Charged Particle Current and the Displacement Current

外场下等离子体中波的增强和带电粒子流的加速

Enhancement of wave and acceleration of electron in plasma by external field

太阳风是从恒星上层大气射出的超声速等离子体带电粒子流。

The solar wind is supersonic plasma charged particles ejected from the upperatmosphere of a star streams .

运用较简明的数学推导，给出了在该磁场分布下带电粒子流聚焦的条件。

Using simple math deduction results in the focusing conditions of charge-particle flow in the distribution of magnetic fields .

太阳会发射出太阳风&一种带电粒子流，它会以极快的速度奔入太空。

The sun emits solar wind - plasma , containing electrically charged particles - which travels out into space at fantastic speeds .

本文探讨了在某种特定磁场分布下带电粒子流的磁聚焦问题。

In this paper , the authors explore the problem of magnetic focusing of charged-particle flow in some specific distribution of magnetic fields .

事实上，在太阳风的影响下，太阳的质量一直在下降，太阳风就是一股从太阳表面放出的带电粒子流。

Actually , the Sun is constantly losing mass through the solar wind , a stream of charged particles constantly blowing off the Sun .

来自太阳的带电粒子流能与地球辐射带和电离层发生相互作用，破坏无线通信并妨碍电力输送。

Charged particles streaming from the sun can interact with the earth 's radiation belts and the ionosphere , disrupting radio and interfering with power transmissions .

宇宙线是一种高能带电粒子流，来自于宇宙空间，是我们得到的来自银河系和河外星系的唯一物质样品。

Cosmic rays ( CRs ) are the high energy particles coming from in and beyond Milky Way , which is the only sample for human to study the universe .

电子学的基本任务是：研究带电粒子流与电磁场相互作用的物理概念和物理过程，以及利用相互作用的不同物理机制实现粒子与场之间能量有效转化的方法和条件。

The research of physical conception , physical process in the interaction between charged particle stream and electromagnetic , and the methods and conditions of effective energy transformation in the interaction used different physical mechanism were the basic task of the electronics .

在此基础上，利用PIC方法计算了带电粒子束流在电磁场中的运动情况、空间分布以及空间电荷效应对电场分布的影响。

Also , the movement , distributions of charged stream , and the space effect on the electric field are calculated with PIC method .

兰州重离子加速器冷却储存环工程（HIRFLCSR）主环和实验环上带电粒子束流强度的测量和监视拟由环型束流变压器实现。

The intensity of a pulsed beam of charged particles in the Cooling Storage Ring Project of Heavy Ion Research Facility in Lanzhou ( HIRFL-CSR ) will be measured with a toroidal current transformer .

描述了最优化技术在带电粒子束流传输系统设计计算中的应用。

It is described how the optimization techniques are used for designing charged particle beam transport system .

无论是在惯性约束聚变、X-射线成像技术等实际应用研究中，还是在天体物理中的高能带电粒子喷射流产生机制等理论研究中，这些快电子都具有重要的研究价值和意义。

These fast electrons are of great importance in applications , such as inertial confinement fusion ( ICF ), X-ray radiography , as well as in theoretical study , such as energetic charged particle jets in astrophysics .

在研究高能核-核碰撞中产生的带电粒子的椭圆流时，结合了几何结构和多源热模型。

Furthermore , elliptic flows of charged particles produced in nucleus-nucleus collisions at high energy are studied in the model .

本文通过对单个带电粒子运动产生的磁场的分析，提供一种理解位移电流与带电粒子流的一致性的直观方式。

In this paper , we discuss the connection between the charged particle current and the displacement current , by analyzing the magnetic-field cause of single charged particle move .