Ali Harmouch scite author profile

In this paper, we propose a novel design of an ultra-wideband hybrid microwave absorber operating in the frequency range between 2 GHz and 18 GHz. This proposed hybrid absorber is composed of two different layers that integrate a multiband metamaterial absorber and a lossy dielectric layer. The metamaterial absorber consists of a periodic pattern that is composed of an arrangement of different scales of coupled resonators and a metallic ground plane, and the dielectric layer is made of epoxy foam composite loaded with low weight percentage (0.075 wt.%) of 12 mm length carbon fibers. The numerical results show a largely expanded absorption bandwidth that ranges from 2.6 GHz to 18 GHz with incident angles between 0° and 45° and for both transverse electric and transverse magnetic waves. The measurements confirm that absorption of this hybrid based metamaterial absorber exceeds 90% within the above-mentioned frequency range and it may reach an absorption rate of 99% for certain frequency ranges. The proposed idea offers a further step in developing new electromagnetic absorbers, which will impact a broad range of applications.

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Ultra-porous and lightweight microwave absorber based on epoxy foam loaded with long carbon fibers

Breiss

Assal

Benzerga

et al. 2021

Materials Research Bulletin

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Miniaturized broadband printed unidirectional antenna with parasitic slots for indoor wireless applications

Harmouch

Mourad

2017

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Miniaturization of the Folded Dipole Antenna

Harmouch

Al-Sheikh

2008

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Cylindrical Omnidirectional Slotted Waveguide Antenna with optimized directional characteristics

Harmouch

Haddad

2013

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Ali Harmouch

Toward an Ultra-Wideband Hybrid Metamaterial Based Microwave Absorber

Ultra-porous and lightweight microwave absorber based on epoxy foam loaded with long carbon fibers

Miniaturized broadband printed unidirectional antenna with parasitic slots for indoor wireless applications

Miniaturization of the Folded Dipole Antenna

Cylindrical Omnidirectional Slotted Waveguide Antenna with optimized directional characteristics

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