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Design procedure for FSS with wide transmission band and rapid rolloff

Design procedure for FSS with wide transmission band and rapid rolloff

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An aspect of the Fabry Perot interferometer (FPI) approach to designing frequency selective surfaces (FSS) consisting of cascaded layers is applied to the problem of broadening the transmission band while simultaneously maintaining a rapid rolloff to the reflection region of the transmission response. The technique is to bring the pathlength phase and boundary reflectivity phase curves close to coincidence over the required frequency range. The example used is a two-layer semi-airspaced structure, with the resulting design validated experimentally.

Inspec keywords: electromagnetic wave transmission; electromagnetic wave reflection; frequency selective surfaces; Fabry-Perot interferometers; microwave antenna arrays

Other keywords: wide transmission band; two-layer semi-airspaced structure; FSS design; ring arrays; pathlength phase curve; cascaded layers; frequency selective surfaces; transmission response; reflection region; Fabry Perot interferometer; SHF; boundary reflectivity phase curve; rapid rolloff

Subjects: Electromagnetic wave propagation; Antenna arrays; Antenna theory

References

    1. 1)
      • De C. A.C. Lima , E.A. Parker . Fabry-Perot approach to thedesign of double layer FSS. IEE Proc. Microw. Antennas Propag. , 157 - 162
    2. 2)
      • R. Cahill , E.A. Parker . Performance of millimetric wave frequencyselective surfaces in large incident angle quasioptical systems. Electron. Lett. , 788 - 789
    3. 3)
      • P. Callaghan , E.A. Parker , R.J. Langley . Influence of supporting dielectric layers on the transmission propertiesof frequency selective surfaces. IEE Proc. H , 448 - 454
    4. 4)
      • C.C. Chen . Transmission of microwave through perforated plates of finite thickness. IEEE Trans. , 1 - 6
    5. 5)
      • C. Antonopoulos , R. Cahill , E.A. Parker , I.M. Sturland . Multilayer frequency selective surfaces for millimetre and submillimetrewave applications. IEE Proc. Microw. Antennas Propag. , 415 - 420
    6. 6)
      • Parker, E.A., Antonopoulos, C., Lima, A.C. de C.: `Multiple layer FSS design and diagnosis using the Fabry-Perot concept', Proceedings of the international conference on Electromagneticsin advanced applications (ICEAA95), September 1995, p. 441–444.
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