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    Journals >Journal of Infrared and Millimeter Waves >Volume 37 >Issue 4 >Page 493 > Article
    • Journal of Infrared and Millimeter Waves
    • Vol. 37, Issue 4, 493 (2018)
    Development of terahertz waveguide diplexer
    WANG Jing1、2、*, ZHANG Sheng-Wei1, LUO Yang-Jin1、2, and MENG Jin1
    Author Affiliations
  • 1[in Chinese]
  • 2[in Chinese]
    • show less
    DOI: 10.11972/j.issn.1001-9014.2018.04.018 Cite this Article
    WANG Jing, ZHANG Sheng-Wei, LUO Yang-Jin, MENG Jin. Development of terahertz waveguide diplexer[J]. Journal of Infrared and Millimeter Waves, 2018, 37(4): 493 Copy Citation Text show less
    References

    [1] Ulaby F T, Moore R K, Fung A K. Microwave remote sensing: active and passive. Vol. 1, Microwave remote sensing fundamentals and radiometry[M]. Reading, MA: Addison-Wesley, 1982.

    [2] Dickie R, Cahill R, Fusco V F, et al. 165/183 GHz FSS for the MetOp second generation microwave sounder instrument[C]. 9th European Conference on Antennas and Propagation (EuCAP). Lisbon, Portugal: IEEE, 2015: 1-3.

    [3] Blackwell W, Allan G, Allen G, et al. Microwave radiometer technology acceleration mission (MiRaTA): Advancing weather remote sensing with nanosatellites[C]. 28th Annual AIAA/USU Conference on Small Satellites, 2014:1-15.

    [4] Reising S C, Gaier T C, Kummerow C D, et al. Overview of temporal experiment for storms and tropical systems (TEMPEST) cubeSat constellation mission[C]. International Microwave Symposium. Phoenix, USA: IEEE, 2015: 1-4.

    [5] Reising S C, Gaier T C, Padmanabhan S, et al. Microwave and millimeter-wave radiometers for CubeSat deployment for remote sensing of the earth's atmosphere[C]. 39th International Conference on Infrared, Millimeter, and Terahertz waves (IRMMW-THz). Tucson, USA: IEEE, 2014: 1-1.

    [6] Tlaxcalteco-Matus M A, Torres-Torres R. Modeling a SIW filter with IRIS windows using equivalent circuits[J]. Microwave and Optical Technology Letters, 2012, 54(12): 2865-2868.

    [7] Murphy L, Mautz J, Yazdani M, et al. Design of a dielectric waveguide filter with embedded metamaterial using mode matching technique[J]. Microwave and Optical Technology Letters, 2014, 56(2): 443-446.

    [9] Chen Z, Zheng Y, Kang X, et al. WR-2.8 band micromachined rectangular waveguide filter[J]. Journal of Infrared, Millimeter, and Terahertz Waves, 2013, 34(12): 847-855.

    [10] Liang H, Mu J, Soref R A, et al. An optical mode-matching method with improved accuracy and efficiency[J]. IEEE Journal of Quantum Electronics, 2015, 51(2): 1-8.

    [12] Zhao X H, Bao J F, Shan G C, et al. D-band micromachined silicon rectangular waveguide filter[J]. IEEE Microwave and Wireless Components Letters, 2012, 22(5): 230-232.

    [14] Morelli M, Hunter I, Parry R, et al. Stop-band improvement of rectangular waveguide filters using different width resonators: Selection of resonator widths[J]. IEEE MTT-S International Microwave Symposium Digest, 2001, 3:1623-1626.

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    WANG Jing, ZHANG Sheng-Wei, LUO Yang-Jin, MENG Jin. Development of terahertz waveguide diplexer[J]. Journal of Infrared and Millimeter Waves, 2018, 37(4): 493
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