A 2D Reflective Metasurface Augmented Luneburg Lens Antenna for 5G Communications

Bader Alali; Dmitry Zelenchuk; Vincent Fusco; IEEE

doi:10.1109/iWAT54881.2022.9811041

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Conference proceeding

A 2D Reflective Metasurface Augmented Luneburg Lens Antenna for 5G Communications

Bader Alali, Dmitry Zelenchuk, Vincent Fusco and IEEE

2022 INTERNATIONAL WORKSHOP ON ANTENNA TECHNOLOGY (IWAT), pp.136-138

01/01/2022

DOI: https://doi.org/10.1109/iWAT54881.2022.9811041

Abstract

Engineering

Engineering, Electrical & Electronic

Science & Technology

Technology

Telecommunications

In this paper, we show a new two-dimensional reflective metasurface augmented Luneburg lens antenna to operate at the Ka frequency band for 5G wireless communication systems. It consists of a half-circle 2D Luneburg lens and a 40-element microstrip patch reflective metasurface. The simulation results of the metasurface augmented Luneburg lens antenna illustrate its capability for beam-steering towards chosen directions by changing the distribution of the microstrip patches on the surface of the reflective metasurface which makes it a suitable application for beam-steering that may operate within the 5G communication frequency bands at 28 GHz.

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Details

Title: A 2D Reflective Metasurface Augmented Luneburg Lens Antenna for 5G Communications
Creators - without role: Bader Alali - Queens University
Dmitry Zelenchuk - Queens University
Vincent Fusco - Queens University
IEEE
Publication Details: 2022 INTERNATIONAL WORKSHOP ON ANTENNA TECHNOLOGY (IWAT), pp.136-138
Publisher: IEEE
Number of pages: 3
Identifiers: 9912655508331
Academic Unit: Al Jouf University
Language: English
Resource Type: Conference proceeding