速调管
- 网络Klystron
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X波段永磁聚焦速调管
Permanent magnet focused X-band klystron
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相对论速调管放大器(RelativisticKlystronAmplifier)是一种高功率、高效率的微波器件。
Relativistic Klystron Amplifier ( RKA ) is one kind of microwave devices with high output microwave power and high efficiency .
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C波段多注速调管电子光学系统的初步设计
Elementary Design of C-Band Multibeam Klystron Electron Optics System
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环形电子束X-波段相对论速调管实验研究
The experiment result of relativistic klystron at X-band with an annular intense beam
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基于PC的光学速调管磁间隙控制系统
The magnetic gap control system of the transverse optical klystron based on PC
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基于PC的光学速调管色散段磁极间隙调节系统
A magnetic pole gap adjusting system of transverse optical klystron dispersive section based on PC
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TM(220)高次模多注速调管矩形谐振腔
Rectangle Cavity of TM_ ( 220 ) High Mode Multi-Beam Klystron
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X波段带状注速调管注波互作用系统的3维PIC模拟
3D Particle-in-Cell Simulation of X-Band Sheet Beam Klystron
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空间矢量PWM波形的谐波仿真研究伯恩斯坦模回旋速调管高次回旋波的研究
Simulation Research of Harmonics of Space Vector PWM Waves INVESTIGATION OF HIGH CYCLOTRON HARMONICS IN BERNSTEIN MODE GYROKLYSTRON
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Ka波段二次谐波回旋速调管放大器的PIC模拟
PIC Simulation of a Ka band Second-Harmonic Gyroklystron Amplifier
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最后,为正在研制中的Ka波段三次谐波倍增回旋速调管放大器设计了一种链式群聚腔。
Finally , a chain bunching cavity is designed for the developing Ka-band frequency-tripling gyroklystron amplifier .
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Ke波段小型多注速调管
Ke - Band Mini Multibeam Klystron
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以多注速调管(MBK)的发展为例就可以看出CAD技术在微波管研究中所起的作用。
The design of multi-beam klystron ( MBK ) can be seen as a example of application of CAD .
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本文用边界无法(BEM)对宽带速调管滤波器型输出段进行研究。
The boundary element method ( BEM ) is used for analyzing the filter type output section of broadband klystron .
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50MW速调管脉冲调制器的PLC控制
PLC control of 50 MW klystron modulators
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对该模型的研究为进一步研制工作在TM(120)~(2π)高次模多注速调管的高频输出系统提供了理论依据。
The study of this model has provided the foundation for further development of TM1202 π high order high frequency output system of multi-beam Klystron .
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以S波段和C波段大功率速调管为例,用分析场和数值场分别带入圆盘模型,对运动过程和输出能量进行了分析。
At last , examples of an S-band and a C band klystrons is calculated by disk model under field distributing of analytic value and numerical data , and the motion and output energy are also analyzed .
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8mm回旋速调管放大器高频窗的设计
Design of 8mm Gyroklystron Amplifier RF Window
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在高功率微波(HPM)拍波效应实验中,采用了一种利用单只速调管放大器获取HPM拍波的方法。
A method of producing beat waves by a single klystron amplifier is introduced in this paper .
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利用MAFIA对速调管谐振腔的计算
Simulation of Klystron Cavity Using MAFIA
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应用自行编制的电子注-波互作用的自洽非线性模拟程序,我们对Ka波段二次谐波回旋速调管放大器的注-波互作用进行了研究。
The beam-wave interaction of a designed Ka-band second harmonic gyroklystron amplifier is studied by using a self-consistent nonlinear simulation program .
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加工了TM(120)~(2π)高次模多注速调管双间隙输出腔模型并进行冷测试验,测试结果与计算相符,并对计算和测试结果进行了分析。
The model is made and the test result of the model accords with the calculation . The analysis of the test and calculation is given .
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使用软件TAU进行三维模拟可以大大缩短模拟时间,便于多注速调管电子光学系统的工程设计。
Less time will be needed than other codes , TAU become a very useful tool for multi-beam electron gun design .
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空间电荷波只对增益有影响,对带宽没有影响。最后,预估一种L带多束速调管的增益带宽为8.1%。
Finally it estimates the gain bandwidth of a MBK is 8.1 % .
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基于同轴TM(81n)模谐振腔毫米波多注速调管研究
Research on Cylindrical Coaxial TM_ ( 81n ) Mode Cavity Resonator for Millimeter Wave Multi-beam Klystron
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同时,应用粒子模拟软件MAGIC对设计的Ka波段两腔回旋速调管放大器进行了模拟验证,并对两种方法计算的结果进行了对比分析。
This dissertation use particle simulation software MAGIC to optimize and simulate the designed Ka band two cavities gyroklystron amplifier . The calculated results of the two methods were compared and analyzed .
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介绍了一种用于射频电子直线加速器型FEL注入器的宽脉冲高功率速调管快速保护系统。
A quick-response protective system for high power klystron with long pulse which is used in FEL injector based on RF linac is described .
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用ICCD作光开关测量储存环中光学速调管谐波超辐射
Using ICCD as a fast optical switch to measure harmonic super-radiation from an optical klystron in a storage ring
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可重入生产系统的QBD型模型多注速调管双重入式谐振腔的解析计算与仿真
QUASI-BIRTH-AND-DEATH TYPE MODELS OF REENTRANT LINES Analysis and simulation for double reentrant cavity of multiple-beam klystron
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另一是在输入腔外接&电抗元件,用来改变输入腔的谐振频率f0和QL,以达到改善速调管增益-频率特性的目的。
The other is that a reactive element is connected with the input cavity to change its resonance frequency f0 and QL and then to improve the gain-frequency characteristics of the klystron .