Accurate simulation of two-dimensional optical microcavities with uniquely solvable boundary integral equations and trigonometric Galerkin discretization

Svetlana V. Boriskina; Phillip Sewell; Trevor M. Benson; Alexander I. Nosich

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Accurate simulation of two-dimensional optical microcavities with uniquely solvable boundary integral equations and trigonometric Galerkin discretization

机译：具有唯一可解边界积分方程和三角Galerkin离散化的二维光学微腔的精确模拟

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A fast and accurate method is developed to compute the natural frequencies and scattering characteristics of arbitrary-shape two-dimensional dielectric resonators. The problem is formulated in terms of a uniquely solvable set of second-kind boundary integral equations and discretized by the Galerkin method with angular exponents as global test and trial functions. The log-singular term is extracted from one of the kernels, and closed-form expressions are derived for the main parts of all the integral operators. The resulting discrete scheme has a very high convergence rate. The method is used in the simulation of several optical microcavities for modern dense wavelength-division-multiplexed systems.

机译：开发了一种快速准确的方法来计算任意形状的二维介电共振器的固有频率和散射特性。该问题由一组独特的第二类边界积分方程组解决，并通过Galerkin方法离散化，并使用角指数作为整体检验和试验函数。从一个内核中提取对数奇异项，并为所有积分运算符的主要部分导出闭式表达式。所得的离散方案具有很高的收敛速度。该方法用于模拟现代密集波分复用系统的多个光学微腔。

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《Journal of the Optical Society of America, A. Optics, image science, and vision》 |2004年第3期|共10页
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Svetlana V. Boriskina; Phillip Sewell; Trevor M. Benson; Alexander I. Nosich;
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正文语种 eng
中图分类光学;
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入库时间 2022-08-19 04:57:41

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1. Accurate simulation of two-dimensional optical microcavities with uniquely solvable boundary integral equations and trigonometric Galerkin discretization [J] . Svetlana V. Boriskina, Phillip Sewell, Trevor M. Benson, Journal of the Optical Society of America, A. Optics, image science, and vision . 2004,第3期

机译：具有唯一可解边界积分方程和三角Galerkin离散化的二维光学微腔的精确模拟
2. Solving a class of nonlinear boundary integral equations based on the meshless local discrete Galerkin (MLDG) method [J] . Pouria Assari, Mehdi Dehghan Applied numerical mathematics . 2018,第jana期

机译：基于无网格局部离散Galerkin（MLDG）方法求解一类非线性边界积分方程
3. A Fully Discrete Fast Fourier-Galerkin Method Solving a Boundary Integral Equation for the Biharmonic Equation [J] . Jiang Ying, Wang Bo, Xu Yuesheng Journal of Scientific Computing . 2018,第3期

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4. Solving the integral boundary layer equations with a discontinuous Galerkin method [C] . H. Ozdemir, E.F. van den Boogaard EWEC 2011 . 2011

机译：用不连续的Galerkin方法求解积分边界层方程
5. An efficient and high-order accurate boundary integral solver for the Stokes equations in three dimensional complex geometries. [D] . Ying, Lexing. 2004

机译：一个高效，高阶，精确的边界积分求解器，用于三维复杂几何中的斯托克斯方程。
6. Existence and Uniqueness Theorems for Impulsive Fractional Differential Equations with the Two-Point and Integral Boundary Conditions [O] . M. J. Mardanov, N. I. Mahmudov, Y. A. Sharifov -1

机译：具有两点和积分边界条件的脉冲分数阶微分方程的存在性和唯一性定理
7. Richardson extrapolation of iterated discrete Galerkin solution for two-dimensional Fredholm integral equations [O] . Han Guoqiang, Wang Ruifang 2002

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8. Numerical Solutions of Non-Uniquely Solvable Integral Equations Using Finite Rank Modifications [R] . Bozeman, S. T. 1984

机译：有限秩修正的非唯一可解积分方程的数值解

Accurate simulation of two-dimensional optical microcavities with uniquely solvable boundary integral equations and trigonometric Galerkin discretization

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