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    Journals >Journal of Infrared and Millimeter Waves >Volume 39 >Issue 5 >Page 547 > Article
    • Journal of Infrared and Millimeter Waves
    • Vol. 39, Issue 5, 547 (2020)
    Detailed investigations on double confocal waveguide for a gyro-TWT
    Chen ZHANG, Wei WANG, Tao SONG, Jie HUANG, Yi-Chao CAO, Di-Wei LIU*, Min HU, Kai-Chun ZHANG, Zhen-Hua WU, [in Chinese], Ren-Bin ZHONG, Tao ZHAO, Seng GONG, and Sheng-Gang LIU
    Author Affiliations
  • Terahertz Research Center, School of Electronic Science and Engineering, University of Electronic Science and Technology of China, Chengdu610054, China
    • show less
    DOI: 10.11972/j.issn.1001-9014.2020.05.003 Cite this Article
    Chen ZHANG, Wei WANG, Tao SONG, Jie HUANG, Yi-Chao CAO, Di-Wei LIU, Min HU, Kai-Chun ZHANG, Zhen-Hua WU, [in Chinese], Ren-Bin ZHONG, Tao ZHAO, Seng GONG, Sheng-Gang LIU. Detailed investigations on double confocal waveguide for a gyro-TWT[J]. Journal of Infrared and Millimeter Waves, 2020, 39(5): 547 Copy Citation Text show less
    References

    [1] K R Chu. Overview of research on the gyrotron traveling-wave amplifier. Plasma ence IEEE Transactions on, 30, 903-908(2002).

    [2] G S Nusinovich, H Li. Theory of gyro-travelling-wave tubes at cyclotron harmonics. International Journal of Electronics, 72, 895-907(1992).

    [3] K R Chu, H Y Chen, C L Hung et al. Ultrahigh Gain Gyrotron Traveling Wave Amplifier. Physical Review Letters, 81, 4760-4763(1998).

    [4] J R Sirigiri, M A Shapiro, R J Temkin. High-Power 140-GHz Quasioptical Gyrotron Traveling-Wave Amplifier. Physical Review Letters, 90, 258302(2003).

    [5] A V Soane, M A Shapiro, S Jawla et al. Operation of a 140-GHz Gyro-Amplifier Using a Dielectric-Loaded, Severless Confocal Waveguide. IEEE Transactions on Plasma ence IEEE Nuclear & Plasma ences Society, 45, 2835(2017).

    [6] W Hu, M A Shapiro. 140-GHz gyrotron experiments based on a confocal cavity. IEEE Transactions on Plasma ence, 26, 366-374(1998).

    [7] W Fu, X Guan, Y Yan. Harmonic terahertz gyrotron with a double confocal quasi-optical cavity. Physics of Plasmas, 26(2019).

    [8] G S Nusinovich. Efficiency of the gyrotron with single and double confocal resonators. Physics of Plasmas, 25, 073104(2018).

    [9] , K Wilh. Interference spectroscopy. Part I: Erratum. Journal of the Optical Society of America (, 32, 185-0(19171983).

    [10] G D Boyd, H Kogelnik. Generalized confocal resonator theory. Bell Labs Technical Journal, 41, 1347-1369(1962).

    [11] G D Boyd, J P Gordon. Confocal multimode resonator for millimeter through optical wavelength masers. Bell Labs Technical Journal, 40, 489-508(1961).

    [12] P O Clark. Self‐Consistent Field Analysis of Multireflector Optical Resonators. Journal of Applied Physics(1965).

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    Chen ZHANG, Wei WANG, Tao SONG, Jie HUANG, Yi-Chao CAO, Di-Wei LIU, Min HU, Kai-Chun ZHANG, Zhen-Hua WU, [in Chinese], Ren-Bin ZHONG, Tao ZHAO, Seng GONG, Sheng-Gang LIU. Detailed investigations on double confocal waveguide for a gyro-TWT[J]. Journal of Infrared and Millimeter Waves, 2020, 39(5): 547
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