Finite-element mode-solver for nonlinear periodic optical waveguides and its application to photonic crystal circuits

Fujisawa T.; Koshiba M.

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Finite-element mode-solver for nonlinear periodic optical waveguides and its application to photonic crystal circuits

机译：非线性周期光波导的有限元模式求解器及其在光子晶体电路中的应用

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A finite-element method (FEM) is newly formulated for the modal analysis of nonlinear periodic optical waveguides. In order to treat periodicity in the propagation direction, periodic boundary conditions are imposed on the envelope of electromagnetic fields. The validity of this method is verified by way of numerical examples of a PC waveguide composed of nonlinear dielectric pillars placed on square array in the cladding region. Furthermore, the present method is applied to various nonlinear photonic crystal waveguide structures for exploring appropriate structures to enhance the nonlinearity and their nonlinear modal properties are presented, including coupled-resonator optical waveguides.

机译：为非线性周期光波导的模态分析，新提出了一种有限元方法（FEM）。为了处理沿传播方向的周期性，将周期性边界条件强加于电磁场的包络上。通过由非线性电介质柱组成的PC波导的数值示例验证了该方法的有效性，该非线性电介质柱位于包层区域的正方形阵列上。此外，本方法被应用于各种非线性光子晶体波导结构，以探索适当的结构以增强非线性，并提出了其非线性模态特性，包括耦合谐振器光波导。

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来源
《Journal of Lightwave Technology》 |2005年第1期|p.382-387|共6页
作者
Fujisawa T.; Koshiba M.;
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正文语种 eng
中图分类无线电电子学、电信技术;
关键词
boundary-value problems; coupled mode analysis; finite element analysis; optical couplers; optical resonators; optical waveguide theory; photonic crystals; coupled-resonator optical waveguides; finite-element method; nonlinear periodic optical waveguides; periodic;

机译：边值问题;耦合模式分析;有限元分析;光耦合器;光谐振器;光波导理论;光子晶体;耦合谐振器光波导;有限元法;非线性周期光波导;周期;

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1. Three-Dimensional Finite-Element Mode-Solver for Nonlinear Periodic Optical Waveguides and Its Application to Photonic Crystal Waveguides [J] . Sato T., Makino S., Ishizaka Y., Lightwave Technology, Journal of . 2014,第21期

机译：非线性周期光波导的三维有限元模式求解器及其在光子晶体波导中的应用
2. Finite-element modeling of nonlinear Mach-Zehnder interferometers based on photonic-crystal waveguides for all-optical signal processing [J] . Fujisawa T., Koshiba M. Journal of Lightwave Technology . 2006,第1期

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3. Finite-Element Modeling of Nonlinear Mach-Zehnder Interferometers Based on Photonic Crystal Waveguides for All-Optical Signal Processing [J] . Takeshi FUJISAWA, Masanori KOSHIBA 電子情報通信学会技術研究報告. 電子部品·材料. Component Parts and Materials . 2004,第265期

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4. Finite-Element Method for Nonlinear Periodic Optical Waveguides and Its Application to Photonic Crystal Circuits [C] . Takeshi FUJISAWA, Masanori KOSHIBA Optical Amplifiers and Their Applications Integrated Photonics Research Topical Meetings . 2004

机译：非线性周期光波导的有限元方法及其在光子晶体电路中的应用
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. Nonlinear wavefront shaping with optically induced three-dimensional nonlinear photonic crystals [O] . Shan Liu, Krzysztof Switkowski, Chenglong Xu, -1

机译：光诱导三维非线性光子晶体的非线性波阵面整形
7. Finite-element modeling of nonlinear Mach-Zehnder interferometers based on photonic-crystal waveguides for all-optical signal processing [O] . Fujisawa, T., Koshiba, M. 2006

机译：基于光子晶体波导的全光信号处理非线性马赫曾德尔干涉仪的有限元建模

Finite-element mode-solver for nonlinear periodic optical waveguides and its application to photonic crystal circuits

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