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Improvement of slow light properties by structure tuning in optofluidic infiltrated photonic crystal waveguides

机译：邻晶渗透光子晶体波导结构调谐改善慢光特性

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Wide band and low dispersion slow light in optofluidic infiltrated photonic crystal waveguide has been theoretically demonstrated. By adjusting the refractive indices of infiltrated optofluidic in the nearest four rows of air holes beside the defect waveguide and tuning the radius of bulk holes, the group index and bandwidth can be enlarged effectively at the same time. Considering the restricted variation of group index within ±10%, the flat band slow light at any group index from 17.80 to 77.55 with large normalized delay bandwidth product staying in the range of 0.32 to 0.36 has been obtained.

机译：理论上证明了邻接渗透渗透光子晶体波导中的宽带和低分散慢光。通过在缺陷波导旁边的最近的四排空气孔中调节渗透的渗透性渗透物流体的折射率并调整散装半径，可以同时有效地放大组指数和带宽。考虑到±10％内的群体指数的受限制变化，从17.80到77.55的任何组指数处的扁平带慢光具有大规模化延迟带宽产品的延迟带宽，已经获得在0.32至0.36的范围内。

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《IEEE International Nanoelectronics Conference》|2016年|1 v.|共2页
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Changhong Li; Zheng Xia; Qiangming Mao;
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中图分类真空电子技术;
关键词
Slow light; Indexes; Bandwidth; Optical waveguides; Dispersion; Photonic crystals; Refractive index;

机译：慢光;索引;带宽;光波导;分散;光子晶体;折射率;

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1. Fine tuning of the center frequency of the slow light regime in an infiltrated W09 photonic crystal waveguide [J] . Pourali Elyar, Erfanian Alireza Optics & Laser Technology . 2018,第期

机译：在渗透的W09光子晶体波导中微调慢灯状态的中心频率
2. Dynamic tuning of slow light transmission in manual nanostructure photonic crystal waveguide [J] . Changhong Li, Huiping Tian, Hui Lu, International Journal of Nanotechnology . 2009,第7a8期

机译：手动纳米结构光子晶体波导中慢光传输的动态调谐
3. Flat-Band Slow Light in a Photonic Crystal Slab Waveguide by Vertical Geometry Adjustment and Selective Infiltration of Optofluidics [J] . Mansouri-Birjandi Mohammad Ali, Janfaza Morteza, Tavousi Alireza Journal of Electronic Materials . 2017,第11期

机译：通过垂直几何调整和选择性渗透光子晶体板波导的平带慢光
4. Improvement of slow light properties by structure tuning in optofluidic infiltrated photonic crystal waveguides [C] . Changhong Li, Zheng Xia, Qiangming Mao IEEE International Nanoelectronics Conference . 2016

机译：通过结构调整微流控渗透光子晶体波导中的慢光性能。
5. Theoretical and computational studies of disorder-induced scattering and nonlinear optical interactions in slow-light photonic crystal waveguides [D] . Mann, Nishan Singh 2017

机译：慢光光子晶体波导中无序引起的散射和非线性光学相互作用的理论和计算研究
6. Slow light bimodal interferometry in one-dimensional photonic crystal waveguides [O] . Luis Torrijos-Morán, Amadeu Griol, Jaime García-Rupérez 2021

机译：一维光子晶体波导中的慢光双峰干涉测量法
7. Deterministic tuning of slow-light in photonic-crystal waveguides through the C and L bands by atomic layer deposition [O] . Chen, Charlton J., Husko, Chad A., Meric, Inanc, 2009

机译：光子晶体波导中慢光的确定性调谐通过原子层沉积通过C和L带

Improvement of slow light properties by structure tuning in optofluidic infiltrated photonic crystal waveguides

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