An ultra-thin meta-material including graphene patterns: Coupling application

Memories - Materials, Devices, Circuits and Systems Pub Date : 2024-02-20 DOI:10.1016/j.memori.2024.100103

Amir Ali Mohammad Khani , Ava Salmanpour , Ali Soldoozy , Elham Zandi

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Abstract

Here a novel ultra-thin meta-material structure is proposed, including periodic arrays of graphene rings, disks, and ribbons and SiO₂ dielectric as spacer between graphene patterns layers at the terahertz (THz) range. The introduced device can couple electromagnetic waves by considering reflection and transmission channels as outputs. Electromagnetic wave coupling depends on the parameters design and the device thickness. The proposed structure can couple electromagnetic waves in multi-band and close frequencies including 2 THz, 4 THz, 6 THz, 7.5 THz, and 9.5 THz. By considering the impedance matching concept, an equivalent circuit model (ECM) is developed for the proposed meta-material. Also, the device stability is investigated in various physical coefficients, geometrical parameters, and incident wave angles to ensure optical applications such as sensors, indoor communications, security, and medical imaging.

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包含石墨烯图案的超薄元材料：耦合应用

本文提出了一种新型超薄元材料结构，包括石墨烯环、盘和带的周期性阵列，以及太赫兹（THz）范围内石墨烯图案层之间的二氧化硅电介质间隔。通过将反射和透射通道作为输出，引入的设备可以耦合电磁波。电磁波耦合取决于参数设计和器件厚度。所提出的结构可以耦合多频段和近频率的电磁波，包括 2 太赫兹、4 太赫兹、6 太赫兹、7.5 太赫兹和 9.5 太赫兹。通过考虑阻抗匹配概念，为所提出的元材料建立了等效电路模型（ECM）。此外，还研究了器件在各种物理系数、几何参数和入射波角度下的稳定性，以确保传感器、室内通信、安防和医学成像等光学应用。

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Memories - Materials, Devices, Circuits and Systems

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