Tunable FSS simulation using WCIP method for multiband and dual polarized applications

A novel multiband-operating and dual polarization frequency selective surface (FSS) for radomes applications for radar stealth is proposed. The design is based on an open metallic ring with coupled end strips. The proposed FSS rejects electromagnetic waves at frequencies 9.1, 10.8 and 11.5 GHz simul...

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Bibliographic Details
Published in:Radioelectronics and communications systems 2017, Vol.60 (3), p.106-112
Main Authors: Djouimaa, A., Titaouine, M., Adoui, I., de Sousa, T. R., Neto, A. G., Baudrand, H.
Format: Article
Language:English
Subjects:
Bandwidths
Communications Engineering
Dual polarization radar
Electromagnetic radiation
Engineering
Frequency selective surfaces
Networks
Radomes
Simulation
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Summary:A novel multiband-operating and dual polarization frequency selective surface (FSS) for radomes applications for radar stealth is proposed. The design is based on an open metallic ring with coupled end strips. The proposed FSS rejects electromagnetic waves at frequencies 9.1, 10.8 and 11.5 GHz simultaneously with bandwidths of 900, 100 and 200 MHz, respectively, when the structure is excited by the x -polarized plane wave, and it rejects at one frequency 7.3 GHz with bandwidth of 1000 MHz, when the structure is excited by the y-polarized plane wave. Frequency tenability is provided by varying the length of the FSS coupled strips and the left edge of vertical U-shaped metallic strip composing the FSS structure. An enhancement of the x -polarized FSS bandwidth from 900 to 1500 MHz and from 200 and 100 to 500 MHz has been achieved. Simulation results obtained by the WCIP method were compared with the simulation results obtained by the COMSOL multiphysics software 4.3b and with the measurements. A good agreement of the results was observed.
ISSN:0735-2727
1934-8061
DOI:10.3103/S0735272717030025