Hybrid frequency-selective rasorber with low-frequency diffusion and high-frequency absorption
In this article, a novel frequency-selective rasorber (FSR) is proposed, which provides a high-efficiency transmission band and a broadband radar cross section (RCS) reduction by hybridizing low-frequency diffusion and high-frequency absorption. The FSR comprises three layers. A broadband second-ord...
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sg-ntu-dr.10356-1597762022-07-01T08:13:53Z Hybrid frequency-selective rasorber with low-frequency diffusion and high-frequency absorption Zhou, Lin Shen, Zhongxiang School of Electrical and Electronic Engineering Engineering::Electrical and electronic engineering Reflection Frequency Selective Surfaces In this article, a novel frequency-selective rasorber (FSR) is proposed, which provides a high-efficiency transmission band and a broadband radar cross section (RCS) reduction by hybridizing low-frequency diffusion and high-frequency absorption. The FSR comprises three layers. A broadband second-order bandpass frequency-selective surface is designed as the bottom layer, which has a reflection-transmission-reflection frequency response, and acts as an equivalent ground plane for the upper layers outside the transmission band. A circuit analog absorber and a coding metasurface are designed as the middle and top layers, respectively. They use absorption and diffusion to reduce the RCS at high- and low-frequency bands. In the coding metasurface, miniaturized and absorptive techniques are utilized to suppress the harmonic resonances. The whole FSR unit cell exhibits a cross-polarized reflection-transmission-absorption frequency response. A co-polarized transmission magnitude larger than -1.5 dB from 7.4 to 12.1 GHz and a co-polarized reflection magnitude less than -10 dB from 3.1 to 20 GHz are observed in the full-wave simulation under the normal incidence. An FSR sample with 20×20 unit cells is designed and measured for verification. The measurement agrees well with the simulation, and it shows a significant monostatic RCS reduction from 3.3 to 20 GHz in comparison with a metallic plane of the same size. 2022-07-01T08:13:53Z 2022-07-01T08:13:53Z 2020 Journal Article Zhou, L. & Shen, Z. (2020). Hybrid frequency-selective rasorber with low-frequency diffusion and high-frequency absorption. IEEE Transactions On Antennas and Propagation, 69(3), 1469-1476. https://dx.doi.org/10.1109/TAP.2020.3018537 0018-926X https://hdl.handle.net/10356/159776 10.1109/TAP.2020.3018537 2-s2.0-85102238929 3 69 1469 1476 en IEEE Transactions on Antennas and Propagation © 2020 IEEE. All rights reserved. |
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Engineering::Electrical and electronic engineering Reflection Frequency Selective Surfaces Zhou, Lin Shen, Zhongxiang Hybrid frequency-selective rasorber with low-frequency diffusion and high-frequency absorption |
| description |
In this article, a novel frequency-selective rasorber (FSR) is proposed, which provides a high-efficiency transmission band and a broadband radar cross section (RCS) reduction by hybridizing low-frequency diffusion and high-frequency absorption. The FSR comprises three layers. A broadband second-order bandpass frequency-selective surface is designed as the bottom layer, which has a reflection-transmission-reflection frequency response, and acts as an equivalent ground plane for the upper layers outside the transmission band. A circuit analog absorber and a coding metasurface are designed as the middle and top layers, respectively. They use absorption and diffusion to reduce the RCS at high- and low-frequency bands. In the coding metasurface, miniaturized and absorptive techniques are utilized to suppress the harmonic resonances. The whole FSR unit cell exhibits a cross-polarized reflection-transmission-absorption frequency response. A co-polarized transmission magnitude larger than -1.5 dB from 7.4 to 12.1 GHz and a co-polarized reflection magnitude less than -10 dB from 3.1 to 20 GHz are observed in the full-wave simulation under the normal incidence. An FSR sample with 20×20 unit cells is designed and measured for verification. The measurement agrees well with the simulation, and it shows a significant monostatic RCS reduction from 3.3 to 20 GHz in comparison with a metallic plane of the same size. |
| author2 |
School of Electrical and Electronic Engineering |
| author_facet |
School of Electrical and Electronic Engineering Zhou, Lin Shen, Zhongxiang |
| format |
Article |
| author |
Zhou, Lin Shen, Zhongxiang |
| author_sort |
Zhou, Lin |
| title |
Hybrid frequency-selective rasorber with low-frequency diffusion and high-frequency absorption |
| title_short |
Hybrid frequency-selective rasorber with low-frequency diffusion and high-frequency absorption |
| title_full |
Hybrid frequency-selective rasorber with low-frequency diffusion and high-frequency absorption |
| title_fullStr |
Hybrid frequency-selective rasorber with low-frequency diffusion and high-frequency absorption |
| title_full_unstemmed |
Hybrid frequency-selective rasorber with low-frequency diffusion and high-frequency absorption |
| title_sort |
hybrid frequency-selective rasorber with low-frequency diffusion and high-frequency absorption |
| publishDate |
2022 |
| url |
https://hdl.handle.net/10356/159776 |
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1738844862869929984 |