Investigation of a Near-Perfect Quad-Band Polarization-Insensitive Metamaterial Absorber Based on Dual-T Circular Shaped Resonator Array Designed on a Silicon Substrate for C-, X- and Ku-bands Applications

Multi-band metamaterial absorbers (MMAs) are increasingly becoming main devices for many electrical systems. Optimizing the electromagnetic qualities of this type of absorber in the microwave regime is a relatively complex operation. In this paper a quad-band metamaterial absorber is provided for ap...

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Bibliographic Details
Published in:SILICON 2023, Vol.15 (2), p.699-712
Main Authors: Bennaoum, Menouer, Berka, Mohammed, Bendaoudi, Amina, Rouabhi, Ahmed Yacine, Mahdjoub, Zoubir
Format: Article
Language:English
Subjects:
Absorbers
Absorbers (materials)
Absorptivity
Arrays
C band
Chemistry
Chemistry and Materials Science
Design
Electric fields
Environmental Chemistry
Frequencies
Ground plane
Inorganic Chemistry
Lasers
Magnetic permeability
Magnetic resonance
Materials Science
Metamaterials
Optical Devices
Optics
Original Paper
Permeability
Photonics
Polarization
Polymer Sciences
Resonators
Silicon
Silicon substrates
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Summary:Multi-band metamaterial absorbers (MMAs) are increasingly becoming main devices for many electrical systems. Optimizing the electromagnetic qualities of this type of absorber in the microwave regime is a relatively complex operation. In this paper a quad-band metamaterial absorber is provided for applications covering the microwave C-, X- and Ku- frequency bands. The proposed MMA is based on 8 × 8 array basic cells. Each cell is formed by a split-ring metamaterial resonator (SRR), the chosen shape for the SRR is the circular dual-T (DT-SRR) interlinked with the rectangular ring. The DT-SRR is etched on the upper side of the Silicon substrate with relative electrical permittivity of 11.7. On the bottom side of the same substrate, a ground plane for full copper surface is printed to prevent transmission. The basic cell has the electrical dimensions of the order of 0.385 λ 0 × 0.385 λ 0 × 0.032 λ 0 where λ 0 is calculated at the lowest operating frequency of 6.43 GHz in the C-band. The electromagnetic qualities of our MMA are expired by the behavior of each basic cell which represents a left hand medium and a negative permeability μ < 0 for magnetic resonances at the frequencies 6.43, 9.10, 11.86 and 14.67 GHz. The obtained results simulations performed by the High-Frequency Structure Simulator (HFSS) computer show an insensitive-polarization dual-band behavior for our proposed MMA. The spectral responses of the proposed absorber cover the C-, X- and Ku-bands for important absorption coefficients of the order of 89.40, 99.66, 99.10 and 95.22%.
ISSN:1876-990X
1876-9918
DOI:10.1007/s12633-022-02038-2