Abstract
The proposed FSS structure employs two square annular rings for absorption functionalities and two square aperture slots for transmission properties. Through comprehensive simulations and analysis, the FSS structure demonstrates remarkable performance in selectively absorbing and transmitting electromagnetic waves across four distinct frequency bands. Moreover, the design exhibits excellent TE and TM polarizations angular stability, consistently maintaining constant absorption and transmission characteristics across varying incidence angles. A comprehensive analysis of the equivalent circuit model of the FSS structure has also been performed to understand the quad-band transmission and absorption properties. The measurement results underscore the effectiveness of the design of a 250*250 mm array, with absorption peaks notably occurring at 4.2 GHz and 7.23 GHz, boasting peak absorption rates of 92% and 85%, respectively. Moreover, the insertion loss within the pass band at 8.8 GHz and 12.2 GHz stands impressively low at 0.2 dB and 0.32 dB, respectively. Notably, the proposed quad-band FSS showcases polarization-insensitive behavior across a range from 0° to 60° and successfully undergoes conformal testing with a curvature radius up to 50 mm. The results of experimental testing on a quad-band FSS prototype demonstrate superior agreement with those obtained through simulations and analytically derived equivalent circuit model (ECM) results, validating its practical applicability in real-world scenarios.
Published Version
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