三角形和锥形尖端对圆形劈裂环电磁场响应的影响

2014 2nd International Conference on Electronic Design (ICED) Pub Date : 2014-08-01 DOI:10.1109/ICED.2014.7015837

A. Ezanuddin, S. Yaakob, A. H. Ismail, E. I. Azmi

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摘要

本文实现了一个三维四面体网格频率求解器，用于模拟三角形尖端(TrT)和锥形尖端(TaT)加在圆形劈裂间隙上的电磁效应。模拟了标准WR159波导中圆形环的行为，并优先考虑了传统的圆形分裂环。采用PSO算法、GA算法、CMAES算法、IQN算法和CP算法对TrT和TaT结构进行了优化和验证。采用TaT算法后，传统圆形裂口环的弱电场灵敏度由5.19e+04 V/m提高到5.36e+04 V/m。磁场灵敏度从149 A/m上升到218 A/m，增加了3.27%。同时，即使在TrT和TaT的作用下，也能很好地保持6.0 GHz的谐振频率。这种集成方法可用于设计许多新颖的c波段超材料，通信和未来的毫米波应用。

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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Triangular and tapered tip effects towards circular split ring EM field response

This research paper implements a 3D tetrahedral meshing frequency solver to simulate the electromagnetic effect of triangular tip (TrT) and tapered tip (TaT) added to a circular split gap. Behavior of circular rings placed inside a standard WR159 waveguide with preference to the conventional circular split ring was modelled. TrT and TaT structures optimization and validation was made using five well known algorithm namely PSO, GA, CMAES, IQN and CP. With TaT, the less electrical field sensitivity of the conventional circular split ring improved from 5.19e+04 V/m to 5.36e+04 V/m. While the magnetic field sensitivity value rises from 149 A/m to 218 A/m, a 3.27 % increase. At the same time retaining the resonant frequency well at 6.0 GHz even with TrT and TaT. The approach of this integration can be used to design numerous novel C-Band metamaterials, communication and future millimeter wave applications.

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2014 2nd International Conference on Electronic Design (ICED)

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