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    Journals >High Power Laser and Particle Beams >Volume 33 >Issue 9 >Page 093002 > Article
    • High Power Laser and Particle Beams
    • Vol. 33, Issue 9, 093002 (2021)
    Self-consistent nonlinear numerical simulation of millimeter wave gyro-klystron amplifiers
    Dian Zhang, Chengxiang An, Jun Zhang, Jiande Zhang, and Huihuang Zhong
    Author Affiliations
  • High Power Microwave Technology Laboratory, National University of Defense Technology, Changsha 410073, China
    • show less
    DOI: 10.11884/HPLPB202133.210129 Cite this Article
    Dian Zhang, Chengxiang An, Jun Zhang, Jiande Zhang, Huihuang Zhong. Self-consistent nonlinear numerical simulation of millimeter wave gyro-klystron amplifiers[J]. High Power Laser and Particle Beams, 2021, 33(9): 093002 Copy Citation Text show less
    Numerical simulation code diagram of gyro-klystron
    Fig. 1. Numerical simulation code diagram of gyro-klystron
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    PIC model of a Ka band two cavity second harmonic gyro-klystron amplifier
    Fig. 2. PIC model of a Ka band two cavity second harmonic gyro-klystron amplifier
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    Electronic efficiency in input cavity of the Ka band two cavity second harmonic gyro-klystron amplifier
    Fig. 3. Electronic efficiency in input cavity of the Ka band two cavity second harmonic gyro-klystron amplifier
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    Electron phase space at different stage of the Ka band two cavity second harmonic gyro-klystron amplifier
    Fig. 4. Electron phase space at different stage of the Ka band two cavity second harmonic gyro-klystron amplifier
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    stageradius/mmlength/mmQfrequency/GHz
    input9.7720.630035.0
    output9.6625.361034.96
    drift7.0122
    Table 1. Parameters of a Ka band two cavity second harmonic gyro-klystron amplifier
    Abstract
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    Figures&Tables (5)
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    Dian Zhang, Chengxiang An, Jun Zhang, Jiande Zhang, Huihuang Zhong. Self-consistent nonlinear numerical simulation of millimeter wave gyro-klystron amplifiers[J]. High Power Laser and Particle Beams, 2021, 33(9): 093002
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    Paper Information
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