Full-wave computational analysis of optical chiral metamaterials

2017 IV International Electromagnetic Compatibility Conference (EMC Turkiye) Pub Date : 2017-09-01 DOI:10.1109/EMCT.2017.8090376
S. Güler, B. Solak, Uğur Meriç Gür, Ö. Ergül
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Abstract

We present computational analysis of optical chiral metamaterials that consist of helical metallic elements. At optical frequencies, metals are modeled as penetrable objects with plasmonic properties. A rigorous implementation based on boundary element methods and the multilevel fast multipole algorithm is used for efficient and accurate analysis of three-dimensional structures. Numerical results demonstrate interesting polarization-rotating characteristics of such arrays with helical elements, as well as their complex responses depending on geometric parameters.
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光学手性超材料的全波计算分析
我们提出了由螺旋金属元素组成的光学手性超材料的计算分析。在光学频率下,金属被建模为具有等离子体特性的可穿透物体。采用基于边界元方法和多层快速多极子算法的严格实现,对三维结构进行高效、准确的分析。数值结果显示了这种具有螺旋元件的阵列有趣的偏振旋转特性,以及它们随几何参数的复杂响应。
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2017 IV International Electromagnetic Compatibility Conference (EMC Turkiye)
2017 IV International Electromagnetic Compatibility Conference (EMC Turkiye)
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