A Meshless Based Solution to Vectorial Mode Fields in Optical Micro-Structured Waveguides Using Leaky Boundary Conditions

Burke D. R.; Smy T. J.

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A Meshless Based Solution to Vectorial Mode Fields in Optical Micro-Structured Waveguides Using Leaky Boundary Conditions

机译：基于泄漏边界条件的光学微结构波导中矢量模式场的无网格解决方案

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Leaky boundary conditions are implemented in a meshless numerical method to solve vectorial mode fields in optical waveguides which allow for the solution of both guided and leaky modes. The modes are found using an approximating solution, the Finite Cloud Method (FCM), to the coupled field equations of the transverse components of the magnetic field. In this paper we extend the method by implementing two absorbing boundary conditions, Transparent Boundary Conditions (TBC) and Perfectly Matched Layers (PML), to solve the leaky modes for several microstructured air hole waveguides. Presented are methods to further refine the boundary conditions and to stabilize the solutions. A comparison between these methods and previously published results show close agreement. Finally, we conclude that the TBC boundary condition is the superior method due to its robustness and lack of fitting parameters.

机译：用无网格数值方法实现泄漏边界条件，以解决光波导中的矢量模场，从而可以求解导模和泄漏模。使用近似解决方案，即有限云方法（FCM），对磁场横向分量的耦合场方程进行求解。在本文中，我们通过实现两个吸收边界条件（透明边界条件（TBC）和完全匹配层（PML））来扩展该方法，以解决几种微结构化气孔波导的泄漏模式。提出了进一步完善边界条件和稳定解的方法。这些方法与先前发表的结果之间的比较显示出密切的一致性。最后，我们得出结论，TBC边界条件由于其健壮性和缺乏拟合参数而成为更好的方法。

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《Lightwave Technology, Journal of》 |2013年第8期|p.1191-1197|共7页
作者
Burke D. R.; Smy T. J.;
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D. Burke is with Department of Electronics Engineering Carleton University, Ottawa K1S 5B6 Canada.;

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正文语种 eng
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Approximation methods; Boundary conditions; Eigenvalues and eigenfunctions; Equations; Indexes; Optical waveguides; Robustness; Leaky waves; modeling; optical fiber losses; optical fibers; partial differential equations; simulation;

机译：近似方法;边界条件;特征值和特征函数;方程;索引;光波导;坚固性漏波;造型;光纤损耗;光纤;偏微分方程;模拟;

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1. The perfectly matched layer boundary condition for modal analysis of optical waveguides: leaky mode calculations [J] . Huang W.P., Xu C.L. IEEE Photonics Technology Letters . 1996,第5期

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3. Solutions of the full- and quasi-vector wave equations based on H-field for optical waveguides by using mapped Galerkin method [J] . Jinbiao Xiao, Mingde Zhang, Xiaohan Sun Optics Communications: A Journal Devoted to the Rapid Publication of Short Contributions in the Field of Optics and Interaction of Light with Matter . 2006,第1期

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4. A meshless based solution to vectorial mode fields in optical microstructured waveguides [C] . D. R. Burke, T. J. Smy Physics and simulation of optoelectronic devices XX. . 2012

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5. Vectorial analysis and modeling of EM wave propagation in second order nonlinear optical waveguide structures. [D] . Al-Mudhaffar, Hussein Mahmoud. 2007

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A Meshless Based Solution to Vectorial Mode Fields in Optical Micro-Structured Waveguides Using Leaky Boundary Conditions

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