Broadband 3-D shared aperture high isolation nine-element antenna array for on-demand millimeter-wave 5G applications

The paper presents the results of a novel 3-D shared aperture 3 × 3 matrix antenna-array for 26 GHz band 5 G wireless networks. Radiation elements constituting the array are hexagonal-shaped patches that are elevated above the common dielectric substrate by 3.35 mm and excited through a metallic rod...

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Published in:Optik (Stuttgart) 2022-10, Vol.267, p.169708, Article 169708
Main Authors: Alibakhshikenari, Mohammad, Virdee, Bal S., Vadalà, Valeria, Dalarsson, Mariana, de Cos Gómez, María Elena, Alharbi, Abdullah G., Burokur, Shah Nawaz, Aïssa, Sonia, Dayoub, Iyad, Falcone, Francisco, Limiti, Ernesto
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Language:English
Subjects:
Array antennas
Engineering Sciences
Isolation wall
Metasurface (MTS)
Shared aperture
Three dimensional (3-D)
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cited_by cdi_FETCH-LOGICAL-c420t-acc7fd403705a6f70d2669577846e24d697f1d314c3b461644085709fd62cf873
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container_title Optik (Stuttgart)
container_volume 267
creator Alibakhshikenari, Mohammad
Virdee, Bal S.
Vadalà, Valeria
Dalarsson, Mariana
de Cos Gómez, María Elena
Alharbi, Abdullah G.
Burokur, Shah Nawaz
Aïssa, Sonia
Dayoub, Iyad
Falcone, Francisco
Limiti, Ernesto
description The paper presents the results of a novel 3-D shared aperture 3 × 3 matrix antenna-array for 26 GHz band 5 G wireless networks. Radiation elements constituting the array are hexagonal-shaped patches that are elevated above the common dielectric substrate by 3.35 mm and excited through a metallic rod of 0.4 mm diameter. The rod protrudes through the substrate of 0.8 mm thickness. It is shown that by isolating each radiating element in the array with a wall suppresses unwanted electromagnetic (EM) wave interactions, resulting in improvement in the antenna’s impedance matching and radiation characteristics. Moreover, the results show that by embedding hexagonal-shaped slots in the patches improve the antenna's gain and radiation efficiency performance. The subwavelength length slots in the patches essentially transform the radiating elements to exhibit metasurface characteristics when the array is illuminated by EM-waves. The proposed array structure has an average gain and radiation efficiency of 20 dBi and 93%, respectively, across 24.0–28.4 GHz. The isolation between its radiation elements is greater than 22 dB. Compared to the unslotted array the improvement in isolation between radiating elements is greater than 11 dB, and the gain and efficiency are better than 10.5 dBi, and 25%, respectively. The compact array has a fractional bandwidth of 16% and a form factor of 20×20×3.35 mm3.
doi_str_mv 10.1016/j.ijleo.2022.169708
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subjects Array antennas
Engineering Sciences
Isolation wall
Metasurface (MTS)
Shared aperture
Three dimensional (3-D)
title Broadband 3-D shared aperture high isolation nine-element antenna array for on-demand millimeter-wave 5G applications
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