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C波段高效率同轴渡越时间振荡器的仿真研究
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作者 朱丹妮 孟进 +3 位作者 王海涛 崔言程 袁玉章 《系统工程与电子技术》 EI CSCD 北大核心 2024年第7期2220-2227,共8页
C波段高功率微波产生器件在通信、雷达等领域具有重要的应用前景,工业部门对其紧凑化和轻量化的需求越来越迫切。本文采用理论分析和2.5维粒子模拟方法,设计了一个基于三腔调制双腔提取结构的C波段高效率同轴渡越时间振荡器(coaxial tra... C波段高功率微波产生器件在通信、雷达等领域具有重要的应用前景,工业部门对其紧凑化和轻量化的需求越来越迫切。本文采用理论分析和2.5维粒子模拟方法,设计了一个基于三腔调制双腔提取结构的C波段高效率同轴渡越时间振荡器(coaxial transit-time oscillator,CTTO),有利于实现低频段高功率微波器件的轻小型化。在调制腔前设计合适的反射腔可以有效预防横电磁波模式(transverse electromagnetic mode,TEM)反向传输到阴极区域,同时能预调制电子束,有效提升器件转化效率。经模拟优化后的典型结果表明:当二极管电压458 kV、电流9.6 kA及外加导引磁场1.05 T时,在中心频率6.37 GHz处获得了功率1.83 GW、转化效率41.6%的微波输出。 展开更多
关键词 同轴渡越时间振荡器 C波段 高效率 粒子模拟
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Novel compact and lightweight coaxial C-band transit-time oscillator 被引量:1
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作者 Xiao-Bo Deng Jun-Tao He +4 位作者 Jun-Pu Ling Bing-Fang Deng Li-Li Song Fu-Xiang Yang Wei-Li Xu 《Chinese Physics B》 SCIE EI CAS CSCD 2020年第9期384-389,共6页
Compactness and miniaturization have become increasingly important in the development of high-power microwave devices.Based on this rising demand,a novel C-band coaxial transit-time oscillator(TTO)with a low external ... Compactness and miniaturization have become increasingly important in the development of high-power microwave devices.Based on this rising demand,a novel C-band coaxial transit-time oscillator(TTO)with a low external guiding magnetic field is proposed and analyzed.The proposed device has the following advantages:simple structure,short axial length,high power conversion efficiency,and low external guiding magnetic field,which are of great significance for developing the compact and miniaturized high-power microwave devices.The application of a shorter axial length is made possible by the use of a transit radiation mechanism.Also,loading the opening foil symmetrically to both ends of the buncher helps reduce the external magnetic field of the proposed device.Unlike traditional foils,the proposed opening foil has a circular-hole;therefore,the electron beam will not bombard the conductive foil to generate plasma.This makes it possible to realize long pulse and high repetition rate operation of the device in future experiments.Through numerical calculation and PIC particle simulation,the stability of the intense relativistic electron beam(IREB)and the saturation time of the device are improved by using the conductive foil.The voltage and current of the diode are 548 kV and 11.4 kA,respectively.Under a 0.4-T external guiding magnetic field,a C-band output microwave with a frequency of 4.27 GHz and power of 1.88 GW can be generated.The power conversion efficiency of the proposed device is about 30%. 展开更多
关键词 low guiding magnetic field foil focus simple structure short axial length
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Novel transit-time oscillator(TTO) combining advantages of radial-line and axial TTO
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作者 Wei-Li Xu Jun-Tao He +4 位作者 Jun-Pu Ling Li-Li Song Bing-Fang Deng Ouzhixiong Dai Xing-Jun Ge 《Chinese Physics B》 SCIE EI CAS CSCD 2019年第8期220-224,共5页
A novel transit-time oscillator(TTO)is proposed in this paper.An axial cathode which has been widely used in high power microwave(HPM)source and an extractor with radial feature are adopted.In this way,the inherent ad... A novel transit-time oscillator(TTO)is proposed in this paper.An axial cathode which has been widely used in high power microwave(HPM)source and an extractor with radial feature are adopted.In this way,the inherent advantages of axial and radial TTO,both of which can be utilized as high-quality intense relativistic electron beam(IREB),can be generated and the power capacity is also increased.The working mode isπ/2 mode of TM01 based on small-signal theory,and under the same energy storage,the maximum electric field in extractor decreases 16.3%.Besides,by utilizing the natural bending of the solenoid,this TTO saves over 60%of the length required by the uniform magnetic field,and consequently reduces the energy consumed by solenoid.The PIC simulation shows that by using 1.0-T decreasing magnetic field generated by the shorter solenoid,3.37-GW microwave at 12.43 GHz is generated with 620-kV and 13.27-kA input,and the overall conversion efficiency is 41%. 展开更多
关键词 AXIAL TTO radial-feature EXTRACTOR larger power capacity shorter UNIFORM magnetic field
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