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回旋潘尼管的工作原理 被引量:5

Operating Principles for Peniotrons
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摘要 根据发展和结构的不同 ,叙述了 4类潘尼管的工作原理 ,分别是双对脊波导结构行波潘尼管、圆波导结构和磁控管型波导结构的回旋潘尼管、空间谐波工作的回旋谐波潘尼管。此外 。 According to the development and difference of gyropeniotron in configuration,this paper described the operating principles for four kinds of peniotrons.They are the double ridges traveling wave peniotron,the gyropeniotron using the circular waveguide and the magnetron waveguide (cavity),and the space harmonic gyropeniotron.In addition,the important factors which can affect the operation of peniotron are also discussed.
作者 黄日隆
机构地区 北京真空电子技术研究所
出处 《真空电子技术》 2002年第6期19-24,39,共7页 Vacuum Electronics
关键词 回旋潘尼管 工作原理 谐波 回旋谐振 磁控管型波导 Peniotron Mode Harmonic Cyclotron resonance Magnetron waveguide
分类号 TN129 [电子电信—物理电子学]
  • 相关文献

参考文献21

  • 1Qno S,Yamannouchi K,Shibata Y et al.Cyclotron Fast-Wave Tube Using Spatial Harmonic Interaction-the Traveling Wave Peniotron. Proc of 4th International Conference on Microwave Tube,1962,355-363.
  • 2Yamanouchi K,Ono S Shibata Y.Cyclotron Fast-Wave Tube,the Double Ridges Traveling Wave Peniotron.Proc of 5# International Conference on Microwave Tubes,Paris.1964,96-102.
  • 3Dhler G,Gallagher D,Moats R.The Peniotron:a Fast-Wave Device for Efficient High Power mm-Wave Generation.IEDM,1978,400-403.
  • 4Ono S,Tsutaki K,Kageyama T.Proposal of a High Efficiency Tube for High Power Milli-Meter or Submillimiter Wave Generation:the Gyro-Peniotron.Int J Electronics,1984,507-519.
  • 5Dhler G,Gallagher D,Moats R et al.Peniotron Oscillator Operating Performance.IEDM,1981,328-331.
  • 6Dhler G,Gallagher D,Lowrie C et al.Peniotron Amplifier Result.IEDM,1984,845-848.
  • 7Dhler G,Gallagher D,Moats R et al.Recent Peniotron Results at 45 GHz.IEDM,1987,311-314.
  • 8Baird J M,Barnett L R,Grow R W et al.Harmonic Auto-Resonant Deniotron (HARP) Interactions.IEDM,1987,913-916.
  • 9Dhler G,Gallagher D,Richards J et al.Harmonic High Power 95 GHz Peniotron.IEDM,1993,363-366.
  • 10Ishihara T,Sagae K,Shimawaki H et al.Experiments of 10th Cyclotron Harmonic Peniotron Osillator.IEDM,1993,367-370.

同被引文献51

  • 1龚建民.高频高效率混合型潘尼管的理论分析[J].强激光与粒子束,1996,8(1):38-46. 被引量:2
  • 2[1]Yamanouchi K,Ono S,Shibata Y.Cyclotron Fast-Wave Tube,The Double Ridges Traveling Wave Peniotron.Proc of 5th International Conference on Microwave Tubes,Paris,1964:96-102.
  • 3[2]Doler G,Gallagher D,Moats R.The Peniotron;A Fast-Wave Device for Efficient High Power mm-Wave Generation.IEDM,1978:400-403.
  • 4[3]Flyagin V A et al.The Gyrotron IEEE Trans MTT,1997,MTT-25:522-527.
  • 5[4]Deotler W W, Weiler R W,Sliffler.High-Power Microwave Generation from a Rotating E-Layer in a Magnetron Type Waveguide.Applied Physics Letter, 1981,38:570-572.
  • 6[5]Vctello P.Cyclotron Maser and Peniotron-Like Instabilities in a Whipering Gallery Mode Gyrotron.IEEE Trans MTT,1984,MTT-32:917-921.
  • 7[6]Tautabck O S,Kageyama T.Proposal of a Hihg Efficiency Tube for High Power Millimeter or Submillimeter Wave Generation:The Gyro-Peniotron.Int J Electronics,1984:507-519.
  • 8[7]Dohler G.Peniotron Interaction in Grotrons.Int J Electronics,1984:629-640.
  • 9[8]Dohler G,Gallagher D,Lowrie C et al. Peniotron Amplifier Result.IEDM,1984:311-314.
  • 10[9]Dohler G,Gallagher D,Lowrie C et al. Recent Peniotron at 45 GHz.IEDM,1987:311-314.

引证文献5

二级引证文献3

真空电子技术
2002年 第6期

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