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    Journals >Infrared Technology >Volume 43 >Issue 6 >Page 532 > Article
    • Infrared Technology
    • Vol. 43, Issue 6, 532 (2021)
    Research on Terahertz Band Demultiplexer Based on Metamaterials
    Xuewen ZHANG, Wu PAN*, Tao SHEN, and Yi LI
    Author Affiliations
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    DOI: Cite this Article
    ZHANG Xuewen, PAN Wu, SHEN Tao, LI Yi. Research on Terahertz Band Demultiplexer Based on Metamaterials[J]. Infrared Technology, 2021, 43(6): 532 Copy Citation Text show less
    References

    [5] Yata M, Fujita M, Nagatsuma T. Photonic-crystal diplexers for terahertz-wave applications[J]. Optics Express, 2016, 24(7): 7835-7849.

    [6] LI Jiusheng, HAN L, LE Z. Compact four-channel terahertz demultiplexer based on directional coupling photonic crystal[J]. Optics Communications, 2015, 350: 248-251.

    [7] LI S, LIU H, SUN Q, et al. Multi-channel terahertz wavelength division demultiplexer with defects-coupled photonic crystal wave guide[J]. Journal of Modern Optics, 2016, 63(10): 955-960.

    [8] Telecommunication Standardization Sector of ITU. Series G: Transmission Systems and Media, Digital Systems and Networks: ITU-T G695 [S]. 2018.

    [10] ZHANG L, ZHANG S, LIU Y, et al. Broadband tunable frequency selective surface for steerable antenna applications[J]. IEEE Transactions on Antennas & Propagation, 2016, 64(12): 5496-5500.

    [11] Osipov A V. Minimum reflection properties of planar impedance-matched boundaries[J]. IEEE Transactions on Antennas & Propagation, 2014, 62(11): 5666-5670.

    [12] Lim J H, LIU T, Kim S S. Numerical analysis of complex impedance and microwave absorption of metamaterials composed of split cut wires on grounded dielectric substrate[J]. Applied Physics A, 2014, 117(3): 1401-1407.

    [13] XIONG X, SUN W H, BAO Y J, et al. Switching the electric and magnetic responses in a metamaterial[J]. Physical Review B, 2009, 80(20): 2665-2668.

    [14] Stojanovi. D B, Radovanovi. J, Milanovi. V. Influence of the geometry of terahertz chiral metamaterial on transmission group delays[J]. Optical and Quantum Electronics, 2016, 48(4): 272.

    [16] Piran M J, Suh D Y. Learning-driven wireless communications, towards 6G[C]//2019 International Conference on Computing, Electronics & Communications Engineering(ICCECE), 2019: 219-224.

    [17] Wakatsuchi H, Paul J, Greedy S, et al. Cut-wire metamaterial design based on simplified equivalent circuit models[J]. IEEE Transactions on Antennas & Propagation, 2012, 60(8): 3670-3678.

    [18] MIN L, HUANG L. Perspective on resonances of metamaterials[J]. Optics Express, 2015, 23(15): 19022.

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    ZHANG Xuewen, PAN Wu, SHEN Tao, LI Yi. Research on Terahertz Band Demultiplexer Based on Metamaterials[J]. Infrared Technology, 2021, 43(6): 532
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