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    Journals >Journal of Infrared and Millimeter Waves >Volume 40 >Issue 4 >Page 483 > Article
    • Journal of Infrared and Millimeter Waves
    • Vol. 40, Issue 4, 483 (2021)
    340 GHz folded diamond shaped waveguide slow-wave structure
    Jing-Yu GUO, Ning-Jie SHI, He-Xin WANG, Yang DONG, Zhan-Liang WANG, Zhi-Gang LU, Zhao-Yun DUAN, Hua-Rong GONG, Yu-Bin GONG, and Shao-Meng WANG*
    Author Affiliations
  • School of Electronic Science and Engineering, University of Electronic Scienceand Technology of China, Chengdu 610054, China
    • show less
    DOI: 10.11972/j.issn.1001-9014.2021.04.007 Cite this Article
    Jing-Yu GUO, Ning-Jie SHI, He-Xin WANG, Yang DONG, Zhan-Liang WANG, Zhi-Gang LU, Zhao-Yun DUAN, Hua-Rong GONG, Yu-Bin GONG, Shao-Meng WANG. 340 GHz folded diamond shaped waveguide slow-wave structure[J]. Journal of Infrared and Millimeter Waves, 2021, 40(4): 483 Copy Citation Text show less
    References

    [1] P H Siegel. Terahertz technology. IEEE Transactions on Microwave Theory and Techniques, 50, 910-928(2002).

    [2] J M Chamberlain, R E Miles. New directions in terahertz technology. Ims Ind Med Surg, 38, 509-537(2009).

    [3] J H Booske, R J Dobbs, C D Joye et al. Vacuum electronic high power terahertz sources. IEEE Transactions on Terahertz Science and Technology, 1, 54-75(2011).

    [4] T W Crowe. Multiplier technology for terahertz applications, 58-61(1998).

    [5] A Xu, Y J Wang, S M Yan et al. Design and analysis for 0.41 THz folded waveguide slow wave structure. Journal of Terahertz Science and Electron Information Technologv, 12, 798-803(2014).

    [6] R K Sharmaet, A K Sharma, B D Pant et al. 6: Design and development of 100 GHz folded waveguide TWT, 505-506(2010).

    [7] X W Bian, M Miao, Z S Li. Design and analysis of micro-machined folded waveguide slow-wave structure for 220 GHz application, 1-4(2016).

    [8] R L Ives. Microfabrication of high-frequency vacuum electron devices. IEEE Transactions on Plasma Science, 32, 1277-1291(2004).

    [9] Y Tian, L Yue, Q Zhou et al. Investigation on sheet beam folded V-shape groove waveguide for millimeter-wave TWT. IEEE Transactions on Plasma Science, 44, 1363-1368(2016).

    [10] H.X WANG, Z L WANG, X Y Li et al. Study of a miniaturized dual-beam TWT with planar dielectric-rods-support uniform metallic meander line. Physics of Plasmas, 25, 063113(2018).

    [11] S S Jung, A V Soukhov, B Jia et al. Efficiency enhancement and harmonic reduction of wideband helix traveling-wave tubes with positive phase velocity tapering. Japanese Journal of Applied Physics, 41, 4007-4013(2002).

    [12] W Q Lei, Y Jiang, L L Hu et al. Optimization design of high efficiency in 140 GHz folded waveguide slow wave structure, 782-78(2016).

    [13] L Yao, J Yao, Z Yang et al. A 0.34-THz high-power, slow-wave structure: designing and microfabricating an H-plane ridge-loaded folded waveguide. IEEE Nanotechnology Magazine, 13, 35-42(2019).

    [14] CST computer simulation technology AG . CST studio suite 2017. https://www.cst.com

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    Jing-Yu GUO, Ning-Jie SHI, He-Xin WANG, Yang DONG, Zhan-Liang WANG, Zhi-Gang LU, Zhao-Yun DUAN, Hua-Rong GONG, Yu-Bin GONG, Shao-Meng WANG. 340 GHz folded diamond shaped waveguide slow-wave structure[J]. Journal of Infrared and Millimeter Waves, 2021, 40(4): 483
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