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    Journals >Journal of Infrared and Millimeter Waves >Volume 41 >Issue 2 >Page 457 > Article
    • Journal of Infrared and Millimeter Waves
    • Vol. 41, Issue 2, 457 (2022)
    The multi-modes, multi-harmonics behavior of a THz large-orbit gyrotron
    Qi-Xiang ZHAO1, Meng-Shi MA1, Xiang LI2、*, You LV1, Tian-Zhong ZHANG3, Lin PENG1, E-Feng WANG4, and Jin-Jun FENG4
    Author Affiliations
  • 1School of Information and Communication,Guilin University of Electronic Technology,Guilin 541004,China
  • 2Research and Development Center,Dynex Semiconductor Ltd.,Lincoln,LN6 3LF,UK
  • 3School of Electronic Science and Engineering,University of Electronic Science and Technology of China,Chengdu,610054,China.
  • 4National Key Laboratory of Science and Technology on Vacuum Electronics,Beijing Vacuum Electronics Research Institute,Beijing 100015,China
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    DOI: 10.11972/j.issn.1001-9014.2022.02.012 Cite this Article
    Qi-Xiang ZHAO, Meng-Shi MA, Xiang LI, You LV, Tian-Zhong ZHANG, Lin PENG, E-Feng WANG, Jin-Jun FENG. The multi-modes, multi-harmonics behavior of a THz large-orbit gyrotron[J]. Journal of Infrared and Millimeter Waves, 2022, 41(2): 457 Copy Citation Text show less
    References

    [1] G S Nusinovich, M Thumm, M I Petelin. The gyrotrons at 50: Historical overview. Journal of Infrared, Millimeter, and Tera hertz Waves, 35, 325-381(2014).

    [2] K R Chu, D Dialetis. Theory of harmonic gyrotron oscillator with slotted resonant structure. International Journal of Infrared and Millimeter Waves, 5, 37-56(1984).

    [3] V L Bratman, A E Fedotov. Moderately relativistic high-harmonic gyrotrons for millimeter/submillimeter wavelength band: special issue on cyclotron resonance masers and gyrotrons. IEEE Transactions on Plasma Science, 27, 456-461(1999).

    [4] Q Zhao, S Yu, X Li et al. Theoretical study on a 0.4-THz second harmonic gyrotron. IEEE Transactions on Plasma Science, 43, 1688-1693(2015).

    [5] S Y Yi, C Y Zheng, L J Li et al. Axial modes in terahertz high-harmonic large-orbit gyrotrons. Modern Physics Letters B, 33, 1940008(2019).

    [6] V Bratman, M Glyavin, T Idehara et al. Review of subterahertz and terahertz gyrodevices at IAP RAS and FIR FU. IEEE Transactions on Plasma Science, 37, 36-43(2008).

    [7] A C Torrezan, S T Han, I Mastovsky et al. Continuous-wave operation of a frequency tunable 460 GHz second-harmonic gyrotron for enhanced nuclear magnetic resonance. IEEE Transactions on Plasma Science, 38, 1150-1159(2015).

    [8] M K Hornstein, V S Bajaj, R G Griffin et al. Continuous-wave operation of a 460-GHz second harmonic gyrotron oscillator. IEEE Transactions on Plasma Science, 34, 524-533(2006).

    [9] T Idehara, I Ogawa, S Mitsudo et al. A high harmonic gyrotron with an axis-encircling electron beam and a permanent magnet. IEEE Transactions on Plasma Science, 32, 903-909(2004).

    [10] K Irwin, W W Destler, W Lawson et al. Second generation, high-power, fundamental mode large-orbit gyrotron experiments. Journal of Applied Physics, 69, 627-631(1991).

    [11] V L Bratman, Y K Kalynov, V N Manuilov. Large-orbit gyrotron operation in the terahertz frequency range. Physical Review Letters, 102, 245101(2009).

    [12] F Li. Design and operation of a harmonic gyrotron based on a cusp electron gun(2010).

    [13] W W Destler, E Chojnacki. High-power microwave generation from large-orbit devices. IEEE Transactions on Plasma Science, 16, 71-89(1988).

    [14] X Li, J Lang, Y Alfadhl et al. Study of an eighth-harmonic large-orbit gyrotron in the terahertz band. IEEE Transactions on Plasma Science, 43, 506-514(2015).

    [15] I V Bandurkin, V L Bratman, Y K Kalynov et al. Terahertz large-orbit high-harmonic gyrotrons at IAP RAS: recent experiments and new designs. IEEE Transactions on Electron Devices, 65, 2287-2293(2018).

    [16] I V Bandurkin, Y K Kalynov, P B Makhalov et al. Simulations of sectioned cavity for high-harmonic gyrotron. IEEE Transactions on Electron Devices, 64, 1-6(2017).

    [17] Y J Huang, L H Yeh, K R Chu. An analytical study on the diffraction quality factor of open cavities. Plasmas of Physics, 21, 103112(2014).

    [18] D B McDermott, N C Luhmann, D S Furuno et al. Operation of a millimeter-wave harmonic gyrotron. International Journal of Infrared & Millimeter Waves, 4, 639-664(1983).

    [19] C Edgcombe. Gyrotron oscillators, 67-69(1993).

    [20] V I Shcherbinin, A V Hlushchenko, A V Maksimenko et al. Effect of cavity ohmic losses on efficiency of low-power terahertz gyrotron. IEEE Transactions on Electron Devices, 64, 3898-3903(2017).

    [21] S H Kao, C C Chiu, K R Chu. A study of sub-terahertz and terahertz gyrotron oscillators. Physics of Plasmas, 19, 023112(2012).

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    Qi-Xiang ZHAO, Meng-Shi MA, Xiang LI, You LV, Tian-Zhong ZHANG, Lin PENG, E-Feng WANG, Jin-Jun FENG. The multi-modes, multi-harmonics behavior of a THz large-orbit gyrotron[J]. Journal of Infrared and Millimeter Waves, 2022, 41(2): 457
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