Frequency tunable dual band graphene-silicon ceramic-based two-port THz radiator with circular polarization and high isolation features

In this work, a two-port graphene-ceramic-based antenna is designed and discussed. Some important features for the proposed two-port radiator are (a) the feed layout produces dual radiating modes, i.e., HEM11 δ and HEM12 δ inside the ceramic at 2.6 and 5.2 THz, respectively; (b) the asymmetrical swa...

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Bibliographic Details
Published in:Applied optics (2004) 2024-06, Vol.63 (17), p.4629
Main Authors: Verma, Asha, Sood, Mamta, Shukla, Neha, Koolwal, Payal, Yadav, Vijeta
Format: Article
Language:English
Subjects:
Algorithms
Antennas
Artificial neural networks
Ceramics
Chemical potential
Circular polarization
Far fields
Frequencies
Graphene
Machine learning
Parameters
Radiators
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Summary:In this work, a two-port graphene-ceramic-based antenna is designed and discussed. Some important features for the proposed two-port radiator are (a) the feed layout produces dual radiating modes, i.e., HEM11 δ and HEM12 δ inside the ceramic at 2.6 and 5.2 THz, respectively; (b) the asymmetrical swastik-shaped aperture creates the circularly polarized waves within dual operating bands, i.e., 2.71–2.84 and 5.15–5.42 THz; (c) a coating of graphene over ceramic makes the radiator frequency tunable by varying its chemical potential; and (d) deep neural network (DNN) and XGBoost-based machine learning (ML) algorithms are used to predict the |S11| parameter of the designed antenna in order to reduce the computational complexity. By comparing the optimized outcome obtained from HFSS with the CST EM simulator and predicted values from ML algorithms, it is verified that the designed two-port radiator works in dual frequency bands, i.e., 2.4–3.2 and 5.0–5.43 THz. Stable values of MIMO, as well as the far-field parameter, confirm the applicability of the designed antenna for THz wireless applications.
ISSN:1559-128X
2155-3165
DOI:10.1364/AO.524594