基于双梯形金属条的二维超材料性能分析

田子建; 姜泊帆

doi:doi:10.3788/gzxb20174601.0116001

光子学报, 2017, 46 (1): 0116001, 网络出版: 2017-02-09

基于双梯形金属条的二维超材料性能分析

Performance Analysis of Two-dimensional Incident Left-handed Metamaterial Based on Double Trapezoid Metal Strips

论文大纲

田子建 ^*姜泊帆

作者单位

中国矿业大学(北京) 机电学院信息工程研究所, 北京 100083

超材料双梯形结构二维仿真拓展性 Metamaterial Double trapezoid structure Two-dimensional Simulation Expansibility

摘要

提出了一种基于平行金属条和细金属线的双梯形二维超材料结构单元.该结构由介质板以及其两侧放置的一对反向对称梯形金属条组成.与传统二维超材料相比, 该结构在电磁波平行入射时具有双左手频带特性, 在电磁波双向入射情况下具有良好的左手频带拓展性, 且结构易于制备.利用电磁仿真软件分别模拟电磁波垂直入射和平行入射条件下该结构的电磁性能.结果表明: 该结构在两种入射情况下均能实现双负特性; 梯形上底每增大0.5 mm, 双入射情况下结构的双负特性分别向高频移动0.2 GHz和0.4 GHz.该研究对基于平行金属条的左手材料的研究以及二维左手材料的发展具有参考价值.

Abstract

A structure of two-dimensional incident left-handed metamaterial composed of double trapezoid metal strips was proposed based on paralleled metal strips and thin metal wire. The structure consists of dielectric-slab and anti-symmetrical trapezoid metal strips on each side. Compared with the traditional left-handed metamaterial structures, this structure not only has double left-handed frequency band under the parallel incidence of electromagnetic wave, but also has a good expansibility, and it is easy to produce. By using the simulation software, the structure is analyzed respectively when electromagnetic waves are incident perpendicularly and when they are parallel to the substrate. Results show that, the structure can show double negative properties either under the incidence of electromagnetic waves paralleled or perpendicular. Besides, with the upper base size of the structure being greater for each 0.5 mm, the frequency band of double negative properties moves to higher frequency band about 0.2 GHz and 0.4 GHz.These can be as reference values in the research of left-handed metamaterial based on paralleled meta strips.

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田子建, 姜泊帆. 基于双梯形金属条的二维超材料性能分析[J]. 光子学报, 2017, 46(1): 0116001. TIAN Zi-jian, JIANG Bo-fan. Performance Analysis of Two-dimensional Incident Left-handed Metamaterial Based on Double Trapezoid Metal Strips[J]. ACTA PHOTONICA SINICA, 2017, 46(1): 0116001.

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