Terahertz Reflectarray Antenna with a Square Patch Surrounded by Two Concentric Square Rings as a Unit Cell
A. Hassan, A., El-Rabie, E., Elsharkawy, R., A. Saleeb, D., S. Elkorany, A. (2023). Terahertz Reflectarray Antenna with a Square Patch Surrounded by Two Concentric Square Rings as a Unit Cell. EKB Journal Management System, 32(1), 9-14. doi: 10.21608/mjeer.2023.283911
Ahmed A. Hassan; El-Sayed M. El-Rabie; Rania Elsharkawy; Demyana A. Saleeb; Ahmed S. Elkorany. "Terahertz Reflectarray Antenna with a Square Patch Surrounded by Two Concentric Square Rings as a Unit Cell". EKB Journal Management System, 32, 1, 2023, 9-14. doi: 10.21608/mjeer.2023.283911
A. Hassan, A., El-Rabie, E., Elsharkawy, R., A. Saleeb, D., S. Elkorany, A. (2023). 'Terahertz Reflectarray Antenna with a Square Patch Surrounded by Two Concentric Square Rings as a Unit Cell', EKB Journal Management System, 32(1), pp. 9-14. doi: 10.21608/mjeer.2023.283911
A. Hassan, A., El-Rabie, E., Elsharkawy, R., A. Saleeb, D., S. Elkorany, A. Terahertz Reflectarray Antenna with a Square Patch Surrounded by Two Concentric Square Rings as a Unit Cell. EKB Journal Management System, 2023; 32(1): 9-14. doi: 10.21608/mjeer.2023.283911

Terahertz Reflectarray Antenna with a Square Patch Surrounded by Two Concentric Square Rings as a Unit Cell

Menoufia Journal of Electronic Engineering Research
Article 2, Volume 32, Issue 1, January 2023, Page 9-14  XML PDF (975.92 K)
DOI: 10.21608/mjeer.2023.283911
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Authors
Ahmed A. Hassan1; El-Sayed M. El-Rabie1; Rania Elsharkawy2; Demyana A. Saleeb3; Ahmed S. Elkorany1
1Dept. of Electronics and Electrical Comm. Eng., Faculty of Electronic Engineering, Menoufia University
2Electronics Research Institute, Dokki, Giza, Egypt
3Faculty of Engineering, Kafr ElShiekh University Kafr ElShiekh, Egypt
Abstract
Graphene is being used as a patch as it possesses a number of desirable electromagnetic and mechanical properties that assist in providing flexible and reconfigurable antenna structure. A graphene reflective unit cell is examined to demonstrate that the reflection coefficient can be controlled by changing the chemical potential and size of the graphene patch. The phase compensation of the reflected waves is achieved by patches with different sizes. Reflection coefficient phase variations for 0°–525° with a variable slope are obtained for different graphene conductivities. A graphene-based reflectarray antenna is proposed. A reflect array with dimensions of that operates at 1.6 THz is analyzed. The reflectarray is composed of 40x40 unit cells with for each unit cell size. They are placed upon silicon dioxide substrate. A horn antenna is used as a feed. The focal-length-to-diameter (F/D) ratio is equal to one. A maximum gain of 20.7, 13.6, and 21.4 dBi are obtained at 1.4, 1.8, and 1.6 THz respectively.
Keywords
Graphene; Reflect array; Unit cell; Reflection phase
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