Mohammad El Ghabzouri scite author profile

Mohammad El Ghabzouri

4Publications

5Citation Statements Received

29Citation Statements Given

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Affiliations

Mohamed I University

Publications

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Enhanced Low Profile, Dual-Band Antenna via Novel Electromagnetic Band Gap Structure

Ghabzouri¹,

Salhi²,

Anacleto³

et al. 2017

PIER C

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Abstract-This paper presents a dual-band, low profile antenna with reduced specific absorption rate (SAR) for mobile handset applications. Here, dual-band operation is obtained by combining a printed dipole antenna (initially resonating at 4.3 GHz) with EBG mushroom-like structures loaded with circular slots (CS). The final structure operates at 3.44 GHz (additional band required for LTE Advanced LTE-A) and 4.5 GHz (for Smartphone WLAN applications) with improved bandwidth and reflection coefficient (350-MHz around 3.5 GHz with −26 dB, and 330 MHz around 4.5 GHz with −30 dB). Finally, a dosimetry study of the proposed printed dual-band dipole antenna is presented and verifies an SAR reduction from 9 W/Kg to 1.41 W/Kg compared to the same antenna without any loading structure, and from 3.98 W/Kg to 1.41 W/Kg compared to a standard EBG mushroom-like structure.

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New technique to drive the central frequency and to improve bandwidth of EBG structures

Ghabzouri

Salhi

Mendes

2015

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In this paper, a parametric study was done to find out the superstrat influence on locating the central frequency of the band gap. The present work compares the standard mushroom like with the EBG structures which are located between the substrate and the superstrat. The main motivation is to present a theoretical contribution by comparing the equations describing the central frequency of the band gap. In that way, this work investigates a new proposed design to shift the central frequency of the forbidden band to a low frequency, by inserting meandered lines to connect each part of the unit cell, which give an added capacitance to the EBG structures, in order to reach a low profile and lightweight EBG structure. The band gap was recognized by computing the transmission coefficient S21 resorting to the suspended line method (SLM).

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Wide band gap using periodic combined electromagnetic band gap cells

Ghabzouri

Salhi

Mendes

2021

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Combined Engineered Cells For Multiband, Wide Band, And Miniaturized Antennas

Ghabzouri

Salhi

Mendes

2022

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