A Novel Graphene-Based Circulator with Multi-layer Triangular Post for THz Region
Abstract
This article proposes a novel three-port circulator with a triangular graphene-based post for the THz region. This new circulator is formed by three 120 symmetrical metal-based waveguides with a multi-layer triangular graphene-based post. The anisotropic feature for circulation is provided by magnetically-biased graphene in the triangular post. The DC magnetic bias is applied in the z-direction. The magnetized, triangular graphene sheet supports hybrid TM-TE plasmons. To realize the proposed circulator, the structure has been simulated in COMSOL software. In our simulation results, isolation of -40 dB with a transmission loss of -3.5 dB is obtained at the central frequency of 5 THz for a specific design. The bandwidth of the simulated circulator is reported 7.25% with respect to the isolation level of -15 dB. It has been shown that the scattering parameters of the proposed circulator can be changed by altering the chemical potential of the graphene and DC magnetic bias, which makes this circulator a tunable device to be utilized in various plasmonic systems.
Cite
@article{arxiv.2102.02683,
title = {A Novel Graphene-Based Circulator with Multi-layer Triangular Post for THz Region},
author = {Mohammad Bagher Heydari and Mohammad Hashem Vadjed Samiei},
journal= {arXiv preprint arXiv:2102.02683},
year = {2021}
}
Comments
This is a pre-print version of an article submitted to Optik (Elsevier)