Triple Split Ring Resonators Metamaterial for Frequency Agility

A. Omar, Mosab M. Qwakneh, Khaled A. AlHammami, Yanal S. Faouri
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引用次数: 4

Abstract

A metamaterial with frequency reconfigurability over a wide range of frequencies is presented in this paper. The proposed unit-cell has a circular geometrical shape with a triple split-ring resonator (SRR) and stepped-impedance resonator (SIR) technique applied to provide better miniaturization factor. The operating frequency is controlled by the presence/absence of a perfect conductor switches. Employing nine switches, the frequency is controlled over the range (1–7) GHz providing a various range of resonance frequencies, frequency bands, and different bandwidths. The suggested metamaterial is simulated using Ansys Electronics Desktop simulator (HFSS), and MATLAB software is used to analyze the characteristics of the unit-cell in terms of permittivity, permeability, and the refractive index. The reflection and transmission coefficients are extracted to observe the behavior of the metamaterial. The results show a negative near-zero refractive index at a certain frequency range. The permeability and permittivity curves exhibit a single negative (SNG) and a double negative (DNG) operating region.
三劈开环谐振器的频率敏捷性超材料
提出了一种具有宽频率范围内频率可重构性的超材料。所提出的单元电池具有圆形几何形状,采用了三分环谐振器(SRR)和阶跃阻抗谐振器(SIR)技术,以提供更好的小型化系数。工作频率由完美导体开关的存在或不存在来控制。采用9个开关,频率控制在(1-7)GHz范围内,提供各种谐振频率、频带和不同带宽。利用Ansys Electronics桌面模拟器(HFSS)对所提出的超材料进行了仿真,并利用MATLAB软件分析了单元格的介电常数、磁导率和折射率等特性。通过提取反射系数和透射系数来观察超材料的行为。结果表明,在一定频率范围内折射率为负,接近于零。磁导率和介电常数曲线表现为单负(SNG)和双负(DNG)工作区域。
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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