基于费马螺旋结构平面手性超材料的三波段偏振角无关90°偏振旋转器

Progress in Electromagnetics Research Symposium : [proceedings]. Progress in Electromagnetics Research Symposium Pub Date : 2019-01-01 DOI:10.2528/PIER18112603

Yongzhi Cheng, Wangyang Li, X. Mao

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引用次数: 31

摘要

我们提出了一种平面手性超材料(PCMM)，它可以作为三波段偏振角无关的90◦偏振旋转器。PCMM的单元胞由四重旋转对称的双层互扭费马螺旋结构(FSS)谐振腔组成。仿真和测量结果表明，PCMM可以在三波段工作，将线偏振(y-/x偏振)波转换为交叉偏振(x-/y偏振)波，或经历近90◦偏振旋转，偏振转换率超过90%。分析了单胞结构的电场和表面电流分布，研究了其物理机理。与以往基于cmm的旋转器相比，我们的设计在单个PCMM结构中具有更多的工作频率，相对更薄的厚度和更高的q因子。PCMM具有良好的性能，在需要与其他小型器件集成的偏振旋转器或变换器中具有广阔的应用前景。

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TRIPLE-BAND POLARIZATION ANGLE INDEPENDENT 90° POLARIZATION ROTATOR BASED ON FERMAT'S SPIRAL STRUCTURE PLANAR CHIRAL METAMATERIAL

We propose a planar chiral metamaterial (PCMM), which can function as a triple-band polarization angle independent 90◦ polarization rotator. The unit cell of the PCMM is composed of bi-layered mutual twisted Fermat’s spiral structure (FSS) resonators with four-fold rotation symmetry. The simulated and measured results show that the PCMM can work in triple-band and convert a linearly polarized (y-/x-polarized) wave to its cross-polarization (x-/y-polarized) or experience a near 90◦ polarization rotation with a polarization conversion ratio of over 90%. The electric field and surface current distributions of the unit-cell structure are analyzed to study its physics mechanism. Compared with previous CMM-based rotator, our design has more operation frequencies in a single PCMM structure, a relative thinner thickness, and higher Q-factor. Good performances of the PCMM suggest promising applications in the polarization rotator or convertor that need to be integrated with other compact devices.

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Progress in Electromagnetics Research Symposium : [proceedings]. Progress in Electromagnetics Research Symposium

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