外加纵向有限磁场也对注波互作用效率和谐振频率有一定的影响。
The additional axial finite magnetic field also has some influence on the beam-wave interaction efficiency and the resonance frequency.
另外,还模拟了一个相对论盘荷波导行波管中的非线性注波互作用过程。
The nonlinear beam-wave interaction processes in a relativistic disk-loaded waveguide TWT are also been simulated using the theory.
文中指出,可以利用动量矩效应作为一种提高注波互作用效率的新方法。
It is pointed out that this effect can be used to enhance the interaction efficiency between the electron beam and the wave.
可以和电子注在很宽的频带内产生互作用,为注波互作用的计算提供了依据。
And the band will be wide, when it interacts with beam. All of the analysis gives the evidence of beam-wave interaction.
最后,由电子运动方程出发,推导出了简化了的螺旋波纹波导回旋行波管的注波互作用色散方程。
Finally, the simplified beam-wave interaction dispersion equation of Gyro-TWT with a spiral corrugated waveguide was obtained from the equations for electronic locomotion.
计算结果表明,该网络并行算法能够有效地减少行波管多信号非线性注波互作用的计算时间,提高工作效率。
The calculating result indicates that the network parallel algorithm can save the computing time of the TWT multi-signal nonlinear beam-wave interaction and improve working efficiency.
在行波管中,慢波系统是进行注波互作用实现能量交换的核心部件,其性能优劣直接决定了行波管整体的性能。
Since the slow-wave system is the core of beam-wave interaction in TWT, the function and performance of it directly determines the capability of the TWT.
引入薄环形电子注,首次建立了脊加载同轴膜片圆波导的注波互作用线性理论,得到小信号条件下的色散方程。
The 'hot' dispersion equation of the coaxial ridge-disk-loaded cylindrical waveguide TWT with an annular electron beam can be firstly obtained according to self-consistent field theory.
电磁波与电子注的互作用不仅与电子注的特性有关,也与波场的极化、空间特性紧密相关。
The effect of the spatial inhomogeneity of TEM mode on the electron beam-TEM wave field interaction has been discussed with the dynamic thcory.
利用电子科技大学编写的微波管模拟套装中的3维注-波互作用模块进行了静态轨迹计算,验证了理论推导。
The ripple has been proved by 3D beam-wave interaction simulator(BWIS) module of microwave tube simulator suite(MTSS), which was developed by University of Electronic Science and Technology of China.
文中求得了相应的电子群聚、注一波互作用功率及增益的表达式,并进行了讨论。
We also derive out some useful expressions, such as electron bunching, beam-wave interaction power and gain, and carry out some discussions.
推出了电子注与波的互作用功率、频偏和起振电流等公式,并进行了详细的讨论和分析。
And the formulas of electron beam to wave interaction power, frequency shift, starting current and etc. are derived. Then some discussions and analyses are carried out in detail.
太赫兹波EIO的注-波互作用理论研究。
重点分析了等离子体密度、厚度,外加磁场对等离子体切伦可夫脉塞注-波互作用的影响,并计算了各参量变化时的波增长率以及色散关系。
Analyzed the different plasma density, position, thickness, and field intensity influence to the beam-wave interactions in plasma Cerenkov maser. Finally, the curves and dispersion relationships a...
重点分析了等离子体密度、厚度,外加磁场对等离子体切伦可夫脉塞注-波互作用的影响,并计算了各参量变化时的波增长率以及色散关系。
Analyzed the different plasma density, position, thickness, and field intensity influence to the beam-wave interactions in plasma Cerenkov maser. Finally, the curves and dispersion relationships a...
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