Sub-wavelength structures and their optical properties

2014 IEEE International Nanoelectronics Conference (INEC) Pub Date : 2014-07-28 DOI:10.1109/INEC.2014.7460455

L. Tobing, Zhengji Xu, Dawei Zhang, K. Low, D. Zhang

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Abstract

We present fabrication and optical properties of some sub-wavelength structures studied in our group, including the sub-100 nm size gold and silver split ring resonators (SRRs). The sub-100-nm SRRs can have magnetic resonance entering into the visible frequency spectrum. The silver SRRs as small as ~60 nm and fundamental magnetic resonance (LC-resonance) as short as ~604 nm have been successfully demonstrated. The resonance wavelengths of the LC and plasmon modes of the sub-100-nm SRRs are found to linearly decrease with the decrease of SRR size. Excellent agreement between LC-model and experimental data is obtained when the capacitance of the sub-100-nm SRRs is interpreted as capacitance between two spheres instead of between two parallel plates. We also present fourfold rotationally symmetric SRR lattice configuration in which the electric and magnetic resonant modes can be efficiently excited under unpolarized light illumination. Furthermore, the large area sub-100 nm SRR metamaterials formed by fourfold rotationally symmetric SRR lattice can be used for sensing with refractive index sensitivity as high as ~636 nm/RIU.

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亚波长结构及其光学性质

本文介绍了本小组研究的一些亚波长结构的制备及其光学性质，包括亚100nm尺寸的金和银分裂环谐振器(SRRs)。低于100纳米的srr可以有进入可见频谱的磁共振。已经成功地证明了小至~ 60nm的银srr和短至~604 nm的基磁共振(LC-resonance)。发现亚100 nm SRR的LC模式和等离子体模式的共振波长随SRR尺寸的减小而线性减小。当将亚100nm SRRs的电容解释为两个球体之间的电容而不是两个平行板之间的电容时，lc -模型与实验数据吻合得很好。我们还提出了四重旋转对称SRR晶格结构，其中电和磁谐振模式可以在非偏振光照射下有效地激发。此外，由四重旋转对称SRR晶格形成的大面积亚100 nm SRR超材料可用于传感，折射率灵敏度高达~636 nm/RIU。

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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2014 IEEE International Nanoelectronics Conference (INEC)

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