A fast technique based on perfectly matched layers for the full-wave solution of 2-D dispersive microstrip lines

Rogier H.; De Zutter D.

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A fast technique based on perfectly matched layers for the full-wave solution of 2-D dispersive microstrip lines

机译：基于完美匹配层的快速技术，用于二维色散微带线的全波解决方案

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摘要

A two-dimensional mixed-potential integral equation formulation is used to analyze the eigenmodes of microstrip lines. The new method involves a fast evaluation scheme for the space domain Green's functions of the substrate by using perfectly matched layers to obtain closed-form expressions as a series of leaky and Berenger modes. Efficient summation of these series is performed by means of the Shanks transform. The modal series can be applied to calculate all field interactions analytically, except for the selfpatch and the nearest neighbor contributions. Examples show an important reduction in CPU time for the new perfectly matched layers approach, as compared to the classical evaluation of the continuous Sommerfeld integrals.

机译：二维混合势积分方程公式用于分析微带线的本征模。新方法涉及一种快速评估方案，该方案通过使用完美匹配的层来获得衬底的空间域格林函数，以获得一系列漏型和贝伦格模式的闭合形式表达式。这些序列的有效求和是通过Shanks变换执行的。模态序列可用于分析计算除自补丁和最近邻贡献以外的所有场相互作用。实例表明，与经典的连续Sommerfeld积分评估相比，新的完美匹配的层方法显着减少了CPU时间。

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来源
《IEEE Transactions on Computer-Aided Design of Integrated Circuits and Systems》 |2003年第12期|p.1650-1656|共7页
作者
Rogier H.; De Zutter D.;
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作者单位

Inf. Technol. Dept., Ghent Univ., Belgium;

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原文格式 PDF
正文语种 eng
中图分类微电子学、集成电路（IC）;
关键词
microstrip lines; inhomogeneous media; current distribution; computational electromagnetics; electric field integral equations; magnetic field integral equations; Green's function methods; computational complexity; eigenvalues and eigenfunctions; waveguide theory; two-dimensional mixed-potential integral equation; 2-D dispersive microstrip lines; perfectly matched layers; full-wave solution; fast technique; eigenmodes; space domain Green's functions; closed-form expressions; Berenger modes; leaky modes; Shanks transform; modal series; field interactions; CPU time reduction; multilayered media; electric scalar potential; magnetic vector potential; CAD; electromagnetic field analysis;

机译：微带线;非均匀介质;电流分布;计算电磁学;电场积分方程;磁场积分方程;格林函数法;计算复杂度;特征值和本征函数;波导理论;二维混合势积分方程;二维分散微带线;完美匹配的层;全波解决方案;快速技术;本征模式;空间域格林函数;闭式表达式;Berenger模式;泄漏模式;Shanks变换;模式序列;场相互作用;CPU时间减少;多层介质;电标量势;磁矢量势;CAD;电磁场分析;

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专利

1. A fast multipole method for layered media based on the application of perfectly matched layers - the 2-D case [J] . Vande Ginste D., Rogier H., Olyslager F., IEEE Transactions on Antennas and Propagation . 2004,第10期

机译：基于完全匹配层的应用的分层介质快速多极方法-二维情况
2. A fast technique based on perfectly matched layers to model electromagnetic scattering from wires embedded in substrates [J] . Hendrik Rogier, Daniël De Zutter Radio Science . 2002,第2期

机译：一种基于完美匹配层的快速技术，可模拟嵌入衬底中的导线的电磁散射
3. Fast technique based on perfectly matched layers to model electromagnetic scattering from wires embedded in substrates [J] . Hendrik Rogier, Daniel De Zutter Radio Science . 2002,第2期

机译：基于完美匹配层的快速技术，可模拟来自嵌入衬底的导线的电磁散射
4. A perfectly matched layer based technique for the scattering from 1-D periodic microstrip structures [C] . Vande Ginste Dries, Rogier Hendrik 20th URSI International Symposium on Electromagnetic Theory . 2010

机译：基于完美匹配层的一维周期性微带结构散射技术
5. Advances in the perfectly matched layer absorbing boundary condition and a technique for efficiently modeling long path propagation with applications to finite-difference grid techniques. [D] . Chevalier, Michael William. 2006

机译：完美匹配的层吸收边界条件的进展以及一种有效地模拟长路径传播的技术，并应用于有限差分网格技术。
6. A modified and stable version of a perfectly matched layer technique for the 3-d second order wave equation in time domain with an application to aeroacoustics [O] . Barbara Kaltenbacher, Manfred Kaltenbacher, Imbo Sim -1

机译：时域3-d二阶波动方程完美匹配层技术的改进和稳定版本并应用于航空声学
7. A perfectly matched layer based modeling technique for 1-D periodic microstrip structures [O] . Vande Ginste Dries, Rogier Hendrik, De Zutter Daniël 2010

机译：一种完美匹配的基于层的建模技术，用于一维周期性微带结构
8. Three-Dimensional Finite Difference Time Domain - Perfectly Matched Layer Algorithm Based on Piecewise-Linear Approximation for Linear Dispersive Media [R] . Yakura, S. J. , Dietz, D. 2000

机译：三维有限差分时域 - 基于分段线性逼近的线性色散介质完全匹配层算法

A fast technique based on perfectly matched layers for the full-wave solution of 2-D dispersive microstrip lines

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