共查询到13条相似文献,搜索用时 84 毫秒
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提出了一种用于辐射高功率微波的各向异性磁化等离子体通道天线(AMPCA),阐述了该天线的具体实现方法,给出了其工作原理,建立了AMPCA的电磁模型。推导了广义柱坐标系下各向异性磁化等离子体中纵向场满足的波动方程,并给出了纵向场与横向场的关系,利用边界条件导出了AMPCA传播模式的特征方程,并在极限条件下,将结果与已有文献进行对比,验证了所推导结果的正确性和有效性。数值计算了AMPCA传播模式的色散曲线。 相似文献
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The dispersive properties of a dielectric-rod loaded waveguide immersed in a magnetized annular plasma 总被引:4,自引:0,他引:4 下载免费PDF全文
Propagation properties of electromagnetic waves in a dielectric-rod waveguide immersed in a magnetized annular plasma are presented in this paper. The dispersion relations are derived and calculated. The results show that the dielectric-rod loading can make the structure less dispersive and the transmission frequency-band broadened. 相似文献
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Excitation of microwave by an annular electron beam in a plasma-filled dielectric lined waveguide 总被引:1,自引:0,他引:1
Jianqiang Wu Caidong Xiong Shenggang Liu 《International Journal of Infrared and Millimeter Waves》1995,16(9):1573-1581
An axial relativistic electron beam passing through a slow wave structure is unstable to an electromagnetic perturbation whose phase velocity equals the velocity of the beam. This phenomenon of Cherenkov emission is the basis of all traveling wave tubes. In this paper an excitation of Cherenkov radiation by a thin annular relativistic electron beam in a plasma-filled dielectric-lined waveguide is analysed by use of the self-consistent linear theory. The effect of the thin annular electron beam on the beam-wave interaction is completely described by a jump condition. The dispersion equation and the simultaneous condition of the beam-wave interaction are derived. Finally, the growth rate of the wave is obtained, and the effect of the background plasma density and the electron beam radius on the growth rate of the wave are presented.This work is supported by National Natural Science Foundation of China. 相似文献
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Wave growth rate in a cylindrical metal waveguide with ion-channel guiding of a relativistic electron beam 下载免费PDF全文
This paper addresses the formulae and numerical issues related to the possibility that fast wave may be grown when a relativistic electron beam through an ion channel in a cylindrical metal waveguide.To derive the dispersion equations of the beam-wave interaction,it solves relativistic Lorentz equation and Maxwell’s equations for appropriate boundary conditions.It has been found in this waveguide structure that the TM 0m modes are the rational operating modes of coupling between the electromagnetic modes and the betatron modes.The interaction of the dispersion curves of the electromagnetic TM 0m modes and the upper betatron modes is studied.The growth rates of the wave are obtained,and the effects of the beam radius,the beam energy,the plasma frequency,and the beam plasma frequency on the wave growth rate are numerically calculated and discussed. 相似文献