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Abstract
This paper presents the results of a study on developing an effective technique to increase the performance characteristics of antenna arrays for sub-THz integrated circuit applications. This is essential to compensate the limited power available from sub-THz sources. Although conventional array structures can provide a solution to enhance the radiation-gain performance however in the case of small-sized array structures the radiation properties can be adversely affected by mutual coupling that exists between the radiating elements. It is demonstrated here the effectiveness of using SIW technology to suppress surface wave propagations and near field mutual coupling effects. Prototype of 2 × 3 antenna arrays were designed and constructed on a polyimide dielectric substrate with thickness of 125 μm for operation across 0.19–0.20 THz. The dimensions of the array were 20 × 13.5 × 0.125 mm3. Metallization of the antenna was coated with 500 nm layer of Graphene. With the proposed technique the isolation between the radiating elements was improved on average by 22.5 dB compared to a reference array antenna with no SIW isolation. The performance of the array was enhanced by transforming the patch to exhibit metamaterial characteristics. This was achieved by embedding the patch antennas in the array with sub-wavelength slots. Compared to the reference array the metamaterial inspired structure exhibits improvement in isolation, radiation gain and efficiency on average by 28 dB, 6.3 dBi, and 34%, respectively. These results show the viability of proposed approach in developing antenna arrays for application in sub-THz integrated circuits.
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1 University of Rome “Tor Vergata”, Electronic Engineering Department, Rome, Italy (GRID:grid.6530.0) (ISNI:0000 0001 2300 0941)
2 London Metropolitan University, Center for Communications Technology & Mathematics, School of Computing and Digital Media, London, UK (GRID:grid.23231.31)
3 University of Quebec, Institut National de La Recherche Scientifique (INRS), Montréal, Canada (GRID:grid.38678.32) (ISNI:0000 0001 2181 0211)
4 Edinburgh Napier University, School of Engineering and the Built Environment, Edinburgh, UK (GRID:grid.20409.3f) (ISNI:000000012348339X)
5 Ulster University, School of Engineering, Newtownabbey, Belfast, UK (GRID:grid.12641.30) (ISNI:0000000105519715)
6 Jouf University, Electrical Engineering Department, Sakaka, Saudi Arabia (GRID:grid.440748.b) (ISNI:0000 0004 1756 6705)
7 University of Bradford, Faculty of Engineering and Informatics, Bradford, UK (GRID:grid.6268.a) (ISNI:0000 0004 0379 5283)
8 Université Catholique de Louvain, Institute of Information and Communication Technologies, Electronics and Applied Mathematics, Ottignies-Louvain-la-Neuve, Belgium (GRID:grid.7942.8) (ISNI:0000 0001 2294 713X)
9 Public University of Navarre, Electric, Electronic and Communication Engineering Department, Pamplona, Spain (GRID:grid.410476.0) (ISNI:0000 0001 2174 6440); Public University of Navarre, Institute of Smart Cities, Pamplona, Spain (GRID:grid.410476.0) (ISNI:0000 0001 2174 6440)