利用半解析法快速收敛多层非均质圆柱介质波导的波传播解法

IF 0.8 4区 工程技术 Q4 ENGINEERING, ELECTRICAL & ELECTRONIC
Frequenz Pub Date : 2024-02-12 DOI:10.1515/freq-2023-0128
Qianru Weng
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引用次数: 0

摘要

本文提出了一种基于 Galerkin 程序的精确高效半解析方法,用于解决多层非均质圆柱介质波导中的电磁波传播问题。该方法通过具有未知系数的特征函数的线性组合来表示每个非均质层中的场,这些特征函数按照 Galerkin 程序使用一系列基函数的内积来表示。在相邻层之间的界面上,场及其径向导数的连续性得到了保证。通过对所有非均质层应用这一程序,亥姆霍兹方程被转化为线性代数方程,其系数以矩阵形式展开,从而使多层非均质波导中复杂的波传播问题以矩阵特征值问题的形式得到解决。通过提供具有不同介电常数剖面的各种多层非均质圆柱体的详细传播特性,对该方法进行了验证。通过与使用其他数值技术获得的结果进行比较,证明了所提方法的准确性和效率。
本文章由计算机程序翻译,如有差异,请以英文原文为准。
A fast convergent solution of wave propagation for multilayer inhomogeneous cylindrical dielectric waveguides using a semianalytical method
This paper presents an accurate and efficient semianalytical method based on the Galerkin procedure for solving electromagnetic wave propagation problems in multilayer inhomogeneous cylindrical dielectric waveguides. The method represents the field in each inhomogeneous layer by a linear combination of eigenfunctions with unknown coefficients, which are expressed using the inner products of a series of basis functions, following the Galerkin procedure. The continuity of the field and its radial derivative is enforced at the interface between adjacent layers. By applying this procedure to all inhomogeneous layers, the Helmholtz equations are transformed into linear algebraic equations with expanded coefficients in matrix form, allowing the complicated wave propagation problem in a multilayer inhomogeneous waveguide to be solved as a matrix eigenvalue problem. The method is validated by providing detailed propagation characteristics for various multilayer inhomogeneous cylinders with different permittivity profiles. The accuracy and efficiency of the proposed method are demonstrated through comparisons with results obtained using other numerical techniques.
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来源期刊
Frequenz
Frequenz 工程技术-工程:电子与电气
CiteScore
2.40
自引率
18.20%
发文量
81
审稿时长
3 months
期刊介绍: Frequenz is one of the leading scientific and technological journals covering all aspects of RF-, Microwave-, and THz-Engineering. It is a peer-reviewed, bi-monthly published journal. Frequenz was first published in 1947 with a circulation of 7000 copies, focusing on telecommunications. Today, the major objective of Frequenz is to highlight current research activities and development efforts in RF-, Microwave-, and THz-Engineering throughout a wide frequency spectrum ranging from radio via microwave up to THz frequencies. RF-, Microwave-, and THz-Engineering is a very active area of Research & Development as well as of Applications in a wide variety of fields. It has been the key to enabling technologies responsible for phenomenal growth of satellite broadcasting, wireless communications, satellite and terrestrial mobile communications and navigation, high-speed THz communication systems. It will open up new technologies in communications, radar, remote sensing and imaging, in identification and localization as well as in sensors, e.g. for wireless industrial process and environmental monitoring as well as for biomedical sensing.
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