Photonic crystal and air trench approaches to realize small-area bends and splitters in low index contrast waveguides

机译：光子晶体和空气沟槽方法可在低折射率对比波导中实现小面积弯曲和分离器

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The ability to make small-area bends and splitters in low index contrast waveguide materials is a critical enabler to realize densely integrated planar lightwave circuits (PLCs) in such materials. We discuss two approaches, the first based on photonic crystal (PhC) structures of limited spatial extent and the second on single air trenches. In each case, PhC or air trench regions are used to augment conventional waveguides (CWGs) to permit drastic reductions in overall device size while preserving the traditional advantages of CWGs such as straightforward design for single mode operation, low propagation loss, low fiber coupling loss, low dispersion, and mature microfabrication processes. We show how these approaches can be used to realize example devices having a very small footprint, including Mach-Zender interferometers and ring resonators.

机译：在低折射率对比波导材料中进行小面积弯曲和分离的能力是在此类材料中实现密集集成的平面光波电路（PLC）的关键因素。我们讨论了两种方法，第一种基于有限空间范围的光子晶体（PhC）结构，第二种基于单个空气沟槽。在每种情况下，都可以使用PhC或空气沟槽区域来增加常规波导（CWG），以大幅度减小设备的总体尺寸，同时保留CWG的传统优势，例如单模操作的直接设计，低传播损耗，低光纤耦合损耗。，低分散性和成熟的微细加工工艺。我们展示了如何使用这些方法来实现具有非常小的占位面积的示例设备，包括Mach-Zender干涉仪和环形谐振器。

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来源
《Linear and Nonlinear Optics of Organic Materials IV》|2004年|P.187-198|共12页
会议地点 DenverCO(US)
作者
Gregory P. Nordin; Seunghyun Kim; Lixia Li; Jingbo Cai; Jianhua Jiang;
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作者单位

Nano Micro Devices Center, University of Alabama in Huntsville OB 410, Huntsville, AL 35899;

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原文格式 PDF
正文语种 eng
中图分类有机物和无机物的各种光化学反应;
关键词
planar lightwave circuits; photonic crystal; air trench; waveguides; waveguide devices; ring resonator; mach-zender interferometer;

机译：平面光波电路;光子晶体;空气沟槽;波导;波导器件;环形谐振器;马赫曾德尔干涉仪;
入库时间 2022-08-26 14:17:22

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3. Low-index-contrast waveguide bend based on truncated Eaton lens implemented by graded photonic crystals [J] . Badri S. Hadi, Gilarlue M. M. Journal of the Optical Society of America, B. Optical Physics . 2019,第5期

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Photonic crystal and air trench approaches to realize small-area bends and splitters in low index contrast waveguides

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