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- This paper has investigated the propagation of relativistic electron beams (REB) in magnetized plasmas. 本文研究了相对论电子束在磁化等离子体中的传输。
- With the strong leading magnet field, the relativistic electron beam can produce high power microwave in such cavity. 作用过程分为三个阶段:电子俘获、群聚和换能;
- By Compton scattering of virtual photon with relativistic electron,the virtual photon can be transformed into real photon to radiate out. 当虚光子与作沟道运动的电子发生康普顿散射时,虚光子就会转化为实光子辐射出去。
- This paper discusses non-local magnetic trapping resonance effects of weakly relativistic electron on cyclotron maser in the magnetic mirrors. 讨论磁镜场中弱相对论捕获电子的非局域磁捕获共振现象对回旋激射的影响。
- High Power Microwave (HPM) source is a nonlinear system composed by the electromagnetic field and relativistic electron beam. 高功率微波(HPM)源是一个由电磁场和相对论电子束组成的非线性系统。
- The problem that Cherenkov radiation may exist in the ion-channel when a relativistic electron beam(REB)is injected into plasma has been demonstrated and studied. 对入射等离子体的相对论电子注(REB)在离子通道中可能产生切连科夫(Cherenkov)辐射的问题进行了论证与研究.
- We study the feasibility for the relativistic electron beam (REB) realizing fast ignition in the hot plasma produced by multi-path lasers focusing on the target. 然后,在此基础上研究了相对论性超热电子束(REB)在多路激光打靶产生高温等离子体中的DT核实施快点火的可行性。
- Considering recoil of electron, a new theory to explain axial channelling radiation is presented based on Compton scattering of virtual photon with relativistic electron. 摘要考虑电子的反冲的影响,利用虚光子与相对论电子的康普顿散射理论对轴沟道辐射进行了研究。
- Considering recoil of electron,a new theory to explain axial channelling radiation is presented based on Compton scattering of virtual photon with relativistic electron. 考虑电子的反冲的影响,利用虚光子与相对论电子的康普顿散射理论对轴沟道辐射进行了研究。
- Recently there has been considerable interested in the Thomson scattering between high energy laser and relativistic electron beam, and a new kind of X ray source named laser synchrotron source(LSS) has been discussed based on this principle. 利用强激光和相对论性电子束在任意相互作用方向发生的非线性Thomson散射理论,计算了平面偏振激光在相互作用角为180°、178.;5°和90°三种条件下发生Thomson散射所产生的X射线波长、相互作用时间等结果,并作出了178
- The frequency upshifting and differential cross section of the laser synchrotron source (LSS) are studied based on the Thomson backscattering of intense laser radiation from a counterstreaming relativistic electron. 摘要研究了逆流相对论电子与激光脉冲相互作用获得激光同步辐射的频率上移、微分散射截面等特性。
- The radiation spectrum for relativistic electron moving along curved spiral curve in plasmas is calculated, and also the formula of total energy emitted by a relativistic electron in vacua is derived. 计算了等离子体介质中,沿弯曲螺旋线运动的相对论电子的辐射谱,进一步导出了真空中的能量辐射公式.
- Abstract: Considering recoil of electron, a new theory to explain axial channelling radiation is presented based on Compton scattering of virtual photon with relativistic electron. 摘 要: 考虑电子的反冲的影响,利用虚光子与相对论电子的康普顿散射理论对轴沟道辐射进行了研究。
- In this paper we present the results of a theoretical study of the focusingproperties of a symmetrical two-cylinder lens with identical radii and negligibleseparation for relativistic electron beams. 本文提出相对论情况下双圆筒静电透镜的聚焦性质,得出在薄透镜近似下的解析公式,并给出计算实例及与数值积分计算相比较。
- Limiting of the spot size of intense relativistic electronic beams in a solenoidal field[J]. 引用该论文 石金水;石金水;林郁正;丁伯南.
- Conditions for amplifying the light radiation by relativistic electrons in the interaction between the light and electrons have been analyzed. 分析了光辐射与相对论电子相互作用过程中,光辐射被相对论电子放大的条件。
- The nonthermal emission caused by magnetic plasma wave, electron cyclotron emission (ECE) and Cherenkov emission of the relativistic electrons has been described in detail. 文章描述了在欧姆放电下,由磁化等离子体波辐射,相对论电子的契伦柯夫辐射,以及非麦氏分布电子的回旋辐射(ECE)所表现出的反常多卜勒不稳定性特征,即主要表现为磁化等离子体波扰动,以及契伦柯夫辐射迅速下降所对应的ECE增加。
- Electron acceleration by the whistler turbulence can markedly increase the number of relativistic electrons within about 30 hours, which is consistent with the observation of relativistic electron flux enhancements during most magnetic storms. 磁层哨声湍流加速“种子电子”大约在 30h内就可以造成相对论电子数显著增加 ;这正好和大多数磁暴期间观测到的相对论电子通量的增长时间相当 .
- relativistic electron beam heating 相对论性电子束加热
- With the highest-intensity pulses, particles might be accelerated directly, the same way that relativistic electrons are generated by the beam, allowing the plasma to be dispensed with. 而如果利用最高强度的脉冲,粒子便可直接加速,一如相对论效应的电子遭光束加速一般,电浆也就可以省了。
