Exploring the efficacy of graphene circular patch nanoantenna in optical spectrum

IF 3.674 4区工程技术 Q1 Engineering

Applied Nanoscience Pub Date : 2025-04-17 DOI:10.1007/s13204-025-03088-9

Munaf Fathi Badr, Ibrahim A. Murdas, Ahmed Aldhahab

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Abstract

This paper presents a proposed design of a communication nanodevice comprised of a circularly shaped nanoantenna operated in the optical frequency range of the electromagnetic spectrum corresponding to the wavelength range of 666.67–3000 nm. The suggested configuration of the nanoantenna combines a circular patch radiating element made of graphene material with a radius of 250 nm, mounted on a cube-shaped substrate layer made of silicon dioxide material with dimensions of (1600 nm × 1600 nm × 150 nm), and a partial ground plane nanolayer constructed from gold located at the bottom of the antenna. The proposed antenna was excited with a nanostrip feed line connected to a waveguide port. The CST simulator software package was used to study how it worked in the chosen frequency range. The results demonstrated that the proposed nanoantenna exhibits improved performance parameters in terms of the reflection coefficients, voltage standing wave ratio, gain, radiation efficiency, and wide bandwidth. The proposed optical nanoantenna is a tunable device that combines the advantages of graphene materials to create a high-performance nanoantenna appropriate for various wireless communication networks, including medical and healthcare systems.

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探索石墨烯圆形贴片纳米天线在光谱中的效能

本文提出了一种由圆形纳米天线组成的通信纳米器件的设计方案，该器件工作在波长范围为666.67 ~ 3000 nm的电磁波谱光频率范围内。建议的纳米天线结构包括一个半径为250 nm的石墨烯材料制成的圆形贴片辐射元件，安装在尺寸为（1600 nm × 1600 nm × 150 nm）的二氧化硅材料制成的立方体衬底层上，以及位于天线底部的部分地平面纳米层，该纳米层由金构成。所提出的天线是由连接到波导端口的纳米带馈线激发的。利用CST仿真软件包对其在选定频率范围内的工作情况进行了研究。结果表明，所设计的纳米天线在反射系数、电压驻波比、增益、辐射效率和带宽等性能参数上均有改善。所提出的光学纳米天线是一种可调谐器件，它结合了石墨烯材料的优点，创建了适用于各种无线通信网络（包括医疗和保健系统）的高性能纳米天线。

本文章由计算机程序翻译，如有差异，请以英文原文为准。

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来源期刊

Applied Nanoscience Materials Science-Materials Science (miscellaneous)

CiteScore

7.10

自引率

0.00%

发文量

430

期刊介绍： Applied Nanoscience is a hybrid journal that publishes original articles about state of the art nanoscience and the application of emerging nanotechnologies to areas fundamental to building technologically advanced and sustainable civilization, including areas as diverse as water science, advanced materials, energy, electronics, environmental science and medicine. The journal accepts original and review articles as well as book reviews for publication. All the manuscripts are single-blind peer-reviewed for scientific quality and acceptance.