Slow light propagation in tunable nanoscale photonic crystal cavity filled with nematic liquid crystal

Kaisar R. Khan; Khaled Mnaymneh; Hazem Awad; Imad Hasan

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Slow light propagation in tunable nanoscale photonic crystal cavity filled with nematic liquid crystal

机译：在充满向列型液晶的可调谐纳米光子晶体腔中缓慢传播

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Slow light propagated through a photonic crystal with a nematic liquid crystal-filled cavity has been simulated and presented. Both slow and fast modes propagate in the waveguide. Design efforts were made to adjust the group velocities of the propagating modes. Numerical studies show that the nematic liquid crystal provides designers an additional degree of freedom to tune the device by using external perturbations such as applying heat or electric field. Comparative studies have also been done to see the performance of the devices built in two different material platforms (silicon and InP). The device can be used as an economic and efficient functional materials system for building robust integrated photonic devices that have the ability to slow, store, and process light pulses.

机译：模拟并提出了慢光通过具有向列液晶填充腔的光子晶体传播。慢模式和快模式都在波导中传播。进行了设计上的努力，以调整传播模式的群速度。数值研究表明，向列型液晶为设计人员提供了更大的自由度，可以通过使用外部扰动（例如施加热量或电场）来调整器件。还进行了比较研究，以查看在两种不同材料平台（硅和InP）中构建的设备的性能。该设备可以用作经济有效的功能材料系统，以构建具有减速，存储和处理光脉冲能力的坚固的集成光子设备。

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来源
《Optical engineering》 |2014年第10期|102705.1-102705.7|共7页
作者
Kaisar R. Khan; Khaled Mnaymneh; Hazem Awad; Imad Hasan;
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作者单位

State University of New York Canton, Canino School of Engineering Technology, Canton, New York 13617, United States;

University of Michigan, Department of Electrical and Computer Engineering, Ann Arbor, Michigan 48109, United States;

University of Ottawa, 800 King Edward Avenue, Ottawa, Ontario K1N6N5, Canada;

College of Business, Algonquin College, Ottawa, Ontario K2G1V8, Canada;

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收录信息美国《科学引文索引》(SCI);美国《工程索引》(EI);
原文格式 PDF
正文语种 eng
中图分类
关键词
slow light; photonic crystal; liquid crystal;

机译：慢光光子晶体液晶;

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专利

1. Tunable lightwave propagation in two-dimensional hole-type photonic crystals infiltrated with nematic liquid crystal [J] . Liu C.-Y. Physica, E. Low-dimensional systems & nanostructures . 2011,第1期

机译：向列液晶渗透的二维孔型光子晶体中的可调光传播
2. Tunable Light Propagation in Photonic Crystal Coupler Filled With Liquid Crystal [J] . Takuro Yasuda, Yasuhide Tsuji, Masanori Koshiba IEEE Photonics Technology Letters . 2005,第1期

机译：充满液晶的光子晶体耦合器中的可调光传播
3. Solitary wave propagation in tunable liquid crystal-filled dual-core photonic crystal fibers [J] . Michelle Savescu, Kaisar Khan Journal of Modern Optics . 2018,第16a18期

机译：可调谐液晶填充双核光子晶体纤维中的孤立波传播
4. Slow Light in Photonic Crystal Cavity Filled with Nematic Liquid Crystal [C] . Kaisar Khan, Khaled Mnaymneh, Hazem Awad, Conference on photonics north . 2013

机译：向列液晶充满光子晶体腔中的慢光
5. Liquid crystal alignment and light propagation in nematic liquid crystal cells. [D] . Panasyuk, George Yurievich. 2003

机译：向列型液晶盒中的液晶排列和光传播。
6. Efficient visible light modulation based on electrically tunable all dielectric metasurfaces embedded in thin-layer nematic liquid crystals [O] . Mingyu Sun, Xuewu Xu, Xiao Wei Sun, -1

机译：基于嵌入在薄层向列液晶中的所有电介质超表面的电可调的高效可见光调制
7. Electrially tunable photonic bandgap guidance in a liquid crystal filled photonic crystal fiber [O] . Haakestad, Magnus W., Alkeskjold, Thomas Tanggaard, Nielsen, Martin Dybendal, 2005

机译：液晶填充光子晶体光纤中的电可调光子带隙引导

Slow light propagation in tunable nanoscale photonic crystal cavity filled with nematic liquid crystal

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