慢波结构

如果采用非均匀慢波结构，可以大大提高器件的束波转换效率。

The efficiency can be improved by using the nonuniform SWS .

针对利用E极化波第一禁带工作的光子晶体类曲折波导慢波结构，讨论了结构参量对此类慢波结构的色散及耦合阻抗的影响。

The photonic crystal folded waveguide slow-wave structure using the second photonic crystal band gap of E mode is also investigated .

使用MAGIC粒子仿真程序对慢波结构的注-波互作用进行模拟。

Using the MAGIC particle simulation program to simulate the beam - wave interaction .

Ka波段毫米波耦合腔慢波结构高频特性的实验研究

Experimental Investigation of the RF Characteristics of Ka-band Coupled-Cavity Slow Wave Structures

Ka波段金属光子带隙慢波结构的特性分析

Characteristics of Ka Band Slow-Wave Structure with Metal Photonic Band-Gap

文章还对该类折叠波导慢波结构的微加工技术进行了初步的探讨，提出了基于ICP体硅深刻蚀、无电镀铜等组合工艺方案。

The fabrication technology is discussed and combined technologies based on ICP and electroless plating are presented .

毫米波宽带TWT双交错慢波结构的理论

Theory on millimeter wide-band TWT double staggered millitron slow wave systems

本文主要利用CSTMICROWAVESTUDIO软件对多注行波管慢波结构的色散特性进行设计计算，并将计算结果和实验值进行比较分析。

By CST Microwave Studio , the calculation and analysis for dispersion of slow-wave structure of multi-beam TWT are given .

利用MAFIA软件模拟耦合腔慢波结构的冷测特性

Simulation of CCTWT Slow-Wave Circuits Cold-Test Parameters Using MAFIA Program

MAFIA软件模拟三维耦合腔慢波结构

Numerical Simulation for Coupled - Cavity Slow - Wave Structure by Using MAFIA Code

脉冲MPM小型化行波管螺旋线慢波结构的设计和改进

Design and Improvement of the Slow Wave Structure in the Mini-TWTs for MPMs

在研究了单电子在静态MILO中的运动规律以后，我们讨论了运动的空间电荷与慢波结构中场的相互作用过程。

The interaction process between space charge and slow wave structure is investigated .

本文的主要工作就是利用大型通用有限元计算软件ANSYS模拟耦合腔行波管慢波结构的热特性和冷测特性并对该软件进行了二次开发。

The main work of this thesis is simulation of the thermal characteristic and cold-test characteristic for coupled-cavity TWT slow-wave structure with ANSYS , which is a finite-element software .

提出了一种新型的宽带大功率慢波结构一V型曲折矩形槽慢波结构，并利用该结构完成了对V波段行波管互作用电路的设计。

A novel wideband high-power slow-wave structure called V-shape folded rectangular groove is proposed innovatively , and the interaction circuit for the V-band traveling-wave tube is designed by employing this structure .

本文从周期慢波结构定理出发，给出本征矢激励下H面g重对称波导结中场分量表达式的严格数学证明；

Under the condition of eigenvector excitation , an exact mathematical verification on the field component expressions of the g-port symmetrical H-plane waveguide junction is presented by means of a periodic slow-wave structure theorem .

在研究了微带型曲折线慢波结构色散特性、耦合阻抗等特性参数的分析方法基础上，利用电磁场仿真软件MAFIA和MicrowaveStudio对其进行模拟计算。

With the electromagnetic simulation software MAFIA and Microwave Studio , method of simulating dispersion characteristics and coupling impedance of microstrip meander-line slow wave structure is described .

因此，V型曲折矩形槽慢波结构是一种有潜力的宽带大功率毫米波慢波结构，它的提出将对宽带大功率毫米波辐射源的发展起到积极的推动作用。

Therefore , as a very potential wideband high-power millimeter-wave structure , the V-shape folded rectangular groove waveguide will play a positive role in the development of wideband high-power millimeter-wave radiation sources . 4 .

运用电磁仿真软件CST对微带椭圆曲折线慢波结构的注波互作用过程进行了仿真计算。

Analyzed the beam-wave interaction of the microstrip elliptical meander line slow wave structure using the electromagnetic simulation software CST .

论文提出了一种Ku波段低磁场过模慢波结构高功率微波发生器。

A Ku-band overmoded high power microwave generator with slow wave structure operated at low magnetic field is put forward in this thesis .

运用HFSS软件对实验中两个被测的螺旋线慢波结构进行建模，分别计算了它们的色散和耦合阻抗特性，在模拟中考虑了空间谐波对耦合阻抗的影响。

Also the dispersion and interaction impedance of them are simulated by HFSS with space-harmonics effects included and ignored .

研究了利用E极化波第一禁带以及第二禁带工作的光子晶体类曲折波导慢波结构。

Then , the photonic crystal folded wave guide slow-wave structure using the first photonic crystal band gap of E mode is investigated , and the effects of structure parameters on the dispersion characteristic and interaction impedance are analyzed .

利用导出的方程，采用可视化技术，在Visualc++环境下，开发了螺旋慢波结构高频系统CAD软件：Helix，并成功的应用于行波管CAD集成环境软件包中。

" Helix ", a CAD software on the helical slow-wave structure is developed by the derived equations and the visual technology under Visual C + + , and it is used successfully in TWT CAD software packet .

本论文以V波段行波管为选题，以新型全金属慢波结构为主线，重点研究了两类新型的全金属慢波结构在V波段行波管中的应用。

The dissertation is based on the V-band traveling-wave tube and puts emphasis on the research of two kinds of novel all-metal slow-wave structures . And the application potentials of these structures in V-band traveling-wave tube are analyzed .

四通道单交错Millitron慢波结构特性分析

Analysis of Four Channels Slow Wave Systems of Single Staggered Millitron

研究结果表明：慢波结构周期为1.5cm1.9cm时，微波频率范围为4.33GHz4.74GHz，属于C波段；

The results show that when the period of the slow-wave structure changes from 1.5 cm to 1.9 cm , the range of microwave frequency is 4.33 GHz-4.74 GHz , which belongs to the C band ;

分别采用有限元算法软件（HFSS）和有限积分法软件（MAFIA）对相对论行波管盘荷波导慢波结构进行建模，求出了相应的色散曲线。

Using the software high frequency structure simulator ( HFSS ) and Maxwell 's equation by the finite integration algorithm ( MAFIA ), a disk-loaded waveguide of relativity traveling wave tube is simulated to get the dispersion characteristics .

利用数值方法计算了磁绝缘线振荡器（MILO）主慢波结构谐振腔和扼流腔的谐振频率和场分布。

Through numerical calculation , the high frequency characteristics of magnetically insulated line oscillator ( MILO ) coaxial slow wave structure ( SWS ), the frequency of the eigen-modes and its distribution of coaxial SWS are presented .

新型同轴慢波结构特性的研究

Research on the Characters of Novel Coaxial Slow - Wave Structure

环杆行波管慢波结构冷测特性的精确仿真

Accurate simulation on Cold-Test Characteristics of ring and bar circuit TWT

慢波结构色散测量中的探针引入误差分析

Probe Induced Error Analysis in Dispersion Measure of Slow wave Structures