Frequency selective superstrate absorber for wideband RCS reduction of metal‐backed antennas

Frequency selective superstrate absorber for wideband RCS reduction of metal‐backed antennas

Abstract The use of a resistively loaded frequency selective surface (FSS) superstrate is reported as a means to reduce the radar cross‐section (RCS) of metal‐backed antennas. The design methodology is demonstrated by creating a low‐profile absorber which exhibits a transmission window covering the...

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Main Authors: Gabriel Gonçalves Machado, Robert Cahill, Vincent Fusco, Gareth Conway
Format: Article
Language:English
Published: Wiley 2021-03-01
Series:IET Microwaves, Antennas & Propagation
Online Access:https://doi.org/10.1049/mia2.12031
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spelling doaj-3ade468aa5314fde998d21f38d5454f02021-07-14T13:26:04ZengWileyIET Microwaves, Antennas & Propagation1751-87251751-87332021-03-0115444145010.1049/mia2.12031Frequency selective superstrate absorber for wideband RCS reduction of metal‐backed antennasGabriel Gonçalves Machado0Robert Cahill1Vincent Fusco2Gareth Conway3The Institute of Electronics, Communications and Information Technology Queen's University Belfast Belfast Northern Ireland UKThe Institute of Electronics, Communications and Information Technology Queen's University Belfast Belfast Northern Ireland UKThe Institute of Electronics, Communications and Information Technology Queen's University Belfast Belfast Northern Ireland UKThe Institute of Electronics, Communications and Information Technology Queen's University Belfast Belfast Northern Ireland UKAbstract The use of a resistively loaded frequency selective surface (FSS) superstrate is reported as a means to reduce the radar cross‐section (RCS) of metal‐backed antennas. The design methodology is demonstrated by creating a low‐profile absorber which exhibits a transmission window covering the working frequency band (10–10.2 GHz) of a 4 × 4 microstrip patch array. Placing the structure λ/2 above the radiating aperture is shown to reduce the antenna gain by less than 2 dB and have minimal impact on the shape of the beams which are directed at 0° and tilt angles of 22.5° and 45°. Moreover 90% radar backscatter suppression is achieved over 92% of the frequency range 8.85–24 GHz. The perforated metal‐backed FSS superstrate was inkjet printed on a 140 μm thick polyethylene terephthalate (PET) sheet and the conductivity of the silver plating adjusted to achieve the required 40 Ω/sq surface resistance. The experimental results obtained for the standalone microwave absorber, and when integrated with the antenna, are shown to be in close agreement with the computed reflectivity and far field patterns.https://doi.org/10.1049/mia2.12031
collection DOAJ
language English
format Article
sources DOAJ
author Gabriel Gonçalves Machado
Robert Cahill
Vincent Fusco
Gareth Conway
spellingShingle Gabriel Gonçalves Machado
Robert Cahill
Vincent Fusco
Gareth Conway
Frequency selective superstrate absorber for wideband RCS reduction of metal‐backed antennas
IET Microwaves, Antennas & Propagation
author_facet Gabriel Gonçalves Machado
Robert Cahill
Vincent Fusco
Gareth Conway
author_sort Gabriel Gonçalves Machado
title Frequency selective superstrate absorber for wideband RCS reduction of metal‐backed antennas
title_short Frequency selective superstrate absorber for wideband RCS reduction of metal‐backed antennas
title_full Frequency selective superstrate absorber for wideband RCS reduction of metal‐backed antennas
title_fullStr Frequency selective superstrate absorber for wideband RCS reduction of metal‐backed antennas
title_full_unstemmed Frequency selective superstrate absorber for wideband RCS reduction of metal‐backed antennas
title_sort frequency selective superstrate absorber for wideband rcs reduction of metal‐backed antennas
publisher Wiley
series IET Microwaves, Antennas & Propagation
issn 1751-8725
1751-8733
publishDate 2021-03-01
description Abstract The use of a resistively loaded frequency selective surface (FSS) superstrate is reported as a means to reduce the radar cross‐section (RCS) of metal‐backed antennas. The design methodology is demonstrated by creating a low‐profile absorber which exhibits a transmission window covering the working frequency band (10–10.2 GHz) of a 4 × 4 microstrip patch array. Placing the structure λ/2 above the radiating aperture is shown to reduce the antenna gain by less than 2 dB and have minimal impact on the shape of the beams which are directed at 0° and tilt angles of 22.5° and 45°. Moreover 90% radar backscatter suppression is achieved over 92% of the frequency range 8.85–24 GHz. The perforated metal‐backed FSS superstrate was inkjet printed on a 140 μm thick polyethylene terephthalate (PET) sheet and the conductivity of the silver plating adjusted to achieve the required 40 Ω/sq surface resistance. The experimental results obtained for the standalone microwave absorber, and when integrated with the antenna, are shown to be in close agreement with the computed reflectivity and far field patterns.
url https://doi.org/10.1049/mia2.12031
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AT robertcahill frequencyselectivesuperstrateabsorberforwidebandrcsreductionofmetalbackedantennas
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AT garethconway frequencyselectivesuperstrateabsorberforwidebandrcsreductionofmetalbackedantennas
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