Abstract
This work presents the existence of the mode conversion technique in a graphene-based Yagi–Uda array antenna. It comprises four arrays whose strands are placed on a silicon dioxide substrate, and are eventually connected with the graphene ring. All four driven elements of the Yagi–Uda array antenna are excited through the ${50}\;\Omega$ silver nanostrip feedline. The proposed antenna offers mode conversion due to variation of the chemical potential of graphene. It controls conversion of the ${\rm TM}_{{32{\delta}}}$ to ${\rm HEM}_{{21{\delta}}}$ mode of the antenna. This is attributed to the change in the biasing voltage of graphene. This in turn shifts the radiation pattern from the end-fire to the broadside direction, which effectively confirms the beam reconfigurability. This antenna provides a high directivity of 12.21 dBi at 4.55 THz center frequency. The proposed antenna is designed and analyzed by using CST Microwave Studio, which is based on the finite difference time domain scheme. The beam steered graphene-based antenna has been utilized for several terahertz communication systems.
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