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    Journals >Journal of Terahertz Science and Electronic Information Technology >Volume 20 >Issue 6 >Page 570 > Article
    • Journal of Terahertz Science and Electronic Information Technology
    • Vol. 20, Issue 6, 570 (2022)
    Investigation on fabrication technology of terahertz bandstop filter
    WANG Liang1、2、*, ZOU Ruizhi1、2, and ZHANG Na1、2
    Author Affiliations
  • 1[in Chinese]
  • 2[in Chinese]
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    DOI: 10.11805/tkyda2021186 Cite this Article
    WANG Liang, ZOU Ruizhi, ZHANG Na. Investigation on fabrication technology of terahertz bandstop filter[J]. Journal of Terahertz Science and Electronic Information Technology , 2022, 20(6): 570 Copy Citation Text show less
    References

    [3] SIEGEL P H. Terahertz technology[J]. IEEE Transactions on Microwave Theory and Techniques, 2002,50(3):910-928.

    [4] DAVID J F, DURAND A J, MINEO M, et al. Design of a terahertz cascade backward wave amplifier[J]. IEEE Transactions on Electron Devices, 2014,61(6):1715-1720.

    [5] GRZYB J, HEINEMANN, PFEIFFER U R. Solid-state terahertz superresolution imaging device in 130 nm SiGe BiCMOS technology[J]. IEEE Transactions on Microwave Theory and Techniques, 2017,65(11):4357-4372.

    [6] BURFORD N M,EVANS M J,EI-SHENAWEE M O. Plasmonic nanodisk thin-film terahertz photoconductive antenna[J]. IEEE Transactions on Terahertz Science and Technology, 2018,8(2):237-247.

    [7] IVES R L. Microfabrication of high-frequency vacuum electron devices[J]. IEEE Transactions on Plasma Science, 2004,32(3): 1277-1291.

    [8] OBERHAMMER J. THz MEMS-micromachining enabling new solutions at millimeter and submillimeter-wave frequencies[C]// 2016 Global Symposium on Millimeter Waves(GSMM) & ESA Workshop on Millimetre-Wave Technology and Applications. Espoo,Finland:IEEE, 2017:81-84.

    [9] ZHUANG J,HAO Z,HONG W. Silicon micromachined terahertz bandpass filter with elliptic cavities[J]. IEEE Transactions on Terahertz Science and Technology, 2015,5(6):1040-1047.

    [10] JOYE C D, COOK A M, CALAME J P, et al. Demonstration of a high power, wideband 220-GHz traveling wave amplifier fabricated by UV-LIGA[J]. IEEE Transactions on Electron Devices, 2014,61(6):1672-1678.

    [11] JOYE C D, CALAME J P, GARYEN M, et al. UV-LIGA microfabrication of 220 GHz sheet beam amplifier gratings with SU-8 photoresists[J]. Journal of Micromechanics and Microengineering, 2010(20):1-13.

    [12] SHIN Y M,BARNETT L R,GAMZINA D,et al. Terahertz vacuum electronics circuits fabricated by UV lithographic molding and deep reactive ion etching[J]. Applied Physics Letters, 2009,95(18):181505.

    [13] MASHANOVICH G Z. Electronics and photonics united[J]. Nature, 2018(556):316-318.

    [14] ATABAKI A H,MOAZENI S,PAVANELLO F,et al. Integrating photonics with silicon nanoelectronics for the next generation of

    [15] SONG H. Packages for terahertz electronics[J]. Proceedings of the IEEE, 2017,105(6):1121-1138.

    [16] MUNK B A. Frequency selective surfaces-theory and design[M]. New York,NY,USA:Wiley, 2000.

    [17] BARRERA M A R, CARPES W P. Bandwidth for the equivalent circuit model in square-loop frequency selective surfaces[J].

    [18] FERREIRA D, RAFAEL F S, CUINAS I, et al. Square loop and slot frequency selective surfaces study for equivalent circuit

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    WANG Liang, ZOU Ruizhi, ZHANG Na. Investigation on fabrication technology of terahertz bandstop filter[J]. Journal of Terahertz Science and Electronic Information Technology , 2022, 20(6): 570
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