期刊文献+

磁场扫描系统在U波段回旋行波管收集极中的应用 被引量:1

Application of Magnetic Field Sweeping System in U-Band Gyro-TWT Collectors
下载PDF
导出
摘要 将适用于回旋振荡管的收集极磁场扫描系统应用到U波段回旋行波管的收集极设计中,有效解决了收集极的功率耗散问题。分别设计了横向、纵向和横-纵向磁场扫描系统(TVFSS),仿真结果显示,磁场扫描法能够明显提高收集极性能。当采用TVFSS扫描方法时,与未采用磁场扫描法相比,电子收集长度从180提升到了300mm,而最高功率耗散密度从0.7降到了0.45kW/cm2。仿真结果验证了磁场扫描系统在回旋行波管收集极设计上的可行性,为大功率回旋行波管收集极的功率耗散问题提供了有效的解决方案。 The magnetic field sweeping(FSS)system widely used in the collector of gyrotron oscillator is adapted to the collector design of U-band gyrotron traveling wave tube(gyro-TWT).To enhance the capability of power dissipation,transverse magnetic field sweeping system(TFSS),vertical magnetic field sweeping system(VFSS)and transverse-vertical magnetic field sweeping system(TVFSS)are designed.The simulation results show that the FSSs can improve the collector performance notably.Compared with the collector without FSS,the TVFSS can increase the collecting length from 180 to 300 mm and decrease the maximum dissipated power from 0.7 to 0.45 kW/cm 2.The simulation results validate the feasibility of FSS in gyro-TWT collector,and provide an effective solution to the power dissipation problem of high-power gyro-TWT.
作者 董坤 蒋伟 DONG Kun;JIANG Wei(38th Research Institute of China Electronic Technology Corporation,Hefei 230088,China;School of Electronic Science and Engineering,University of Electronic Science and Technology of China,Chengdu 610054,China)
出处 《真空电子技术》 2019年第6期85-88,93,共5页 Vacuum Electronics
关键词 回旋行波管 收集极 功率耗散密度 横向场扫描系统 纵向场扫描系统 横-纵场扫描系统 Gyrotron traveling wave tube Collector Power dissipation density TFSS VFSS TVFSS
  • 相关文献

参考文献5

二级参考文献33

  • 1姚列明,杨中海,李斌,黄桃.行波管收集极的热分析[J].强激光与粒子束,2006,18(1):97-100. 被引量:15
  • 2Tsai W C,Chang T H,chen N C,et al.Absolute Instabilities in a High-Order-Mode Gyrotron Traveling-wave Amplifier[J].Phys Rev,2004,E 70,056402:1-7.
  • 3Wang Q S,Huey H E,Mcdermott D B,et al.Design of a W-Band Second-harmonic TE02 gyro-TWT Amplifier[J].IEEE Trans Plasma Sci,2000,28(6):2232-2237.
  • 4Nguyen K T,Calame J P,Pershing D E,et al.Design of a Ka-Band Gyro-TWT for Radar Applications[J].IEEE Trans Electron Dev,2001,48(1):108-115.
  • 5Mcdermott D B,Balkcum A J,Luhmann N C,et al.35GHz 25kW CW Low-Voltage Third-Harmonic Gyrotron[J].IEEE Trans Plasma Sci,1998,24 (3):613-619.
  • 6Neilson J,Read M,Ives L.Design of a Permanent Magnet Gyrotron for Active Denial Systems[C].Proc IEEE IVEC,2009:92-93.
  • 7Chu K R,Lin A T.Gain and Bandwidth of the Gyro-TWT and CARM Amplifier[J].IEEE Trans.Plasma Sci,1988,16(2):90-104.
  • 8Davies J A.Conditions for Absolute Instability in the Cyclotron Resonance Maser[J].Phys Fluids B,1989,1(3):663-669.
  • 9Gvarven M,Calame J P,Danly B G,et al.A Gyrotron Traveling Wave Tube Amplifier Experiment with a Ceramic Loaded Interaction Region[J].IEEE Trans Plasma Sci,2002,30(3):885-893.
  • 10Manfred Thumm. IVEC[C]. Bangalore, 2011: 521-524.

共引文献18

同被引文献2

引证文献1

相关作者

内容加载中请稍等...

相关机构

内容加载中请稍等...

相关主题

内容加载中请稍等...

浏览历史

内容加载中请稍等...
;
使用帮助 返回顶部