电介质圆柱体散射的空场法-表面等价原理方法的基本原理

IF 4.2 2区工程技术 Q1 ENGINEERING, MULTIDISCIPLINARY Engineering Analysis with Boundary Elements Pub Date : 2024-08-16 DOI:10.1016/j.enganabound.2024.105911

Minas Kouroublakis , Nikolaos L. Tsitsas , George Fikioris

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引用次数: 0

摘要

空场法（NFM）和辅助源法（MAS）都被广泛用于对涉及波的传播和散射的各种应用中出现的边界值问题进行数值求解。研究表明，在某些条件下，MAS 的适用性可能会受到辅助电流发散问题的限制，表现为出现指数级的大振荡。在这项工作中，我们结合了 NFM 和表面等效原理 (SEP)，并参照介电圆柱体的（内部或外部）线源激励问题，分析研究了 NFM-SEP 组合的收敛特性。我们的主要目的是证明（与 MAS 相反）离散 NFM-SEP 电流在适当归一化后总是收敛于相应的连续电流密度，因此不会出现发散和振荡现象。在对 NFM-SEP 进行理论分析的同时，还与 MAS 进行了详细比较，并用具有代表性的数值结果对结论进行了说明。

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Fundamentals of a null field method-surface equivalence principle approach for scattering by dielectric cylinders

The null-field method (NFM) and the method of auxiliary sources (MAS) have been both used extensively for the numerical solution of boundary-value problems arising in diverse applications involving propagation and scattering of waves. It has been shown that, under certain conditions, the applicability of MAS may be restricted by issues concerning the divergence of the auxiliary currents, manifested by the appearance of exponentially large oscillations. In this work, we combine the NFM with the surface equivalence principle (SEP) and investigate analytically the convergence properties of the combined NFM-SEP with reference to the problem of (internal or external) line-source excitation of a dielectric cylinder. Our main purpose is to prove that (contrary to the MAS) the discrete NFM-SEP currents, when properly normalized, always converge to the corresponding continuous current densities, and thus no divergence and oscillations phenomena appear. The theoretical analysis of the NFM-SEP is accompanied by detailed comparisons with the MAS as well as with representative numerical results illustrating the conclusions.

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来源期刊

Engineering Analysis with Boundary Elements 工程技术-工程：综合

CiteScore

5.50

自引率

18.20%

发文量

368

审稿时长

56 days

期刊介绍： This journal is specifically dedicated to the dissemination of the latest developments of new engineering analysis techniques using boundary elements and other mesh reduction methods. Boundary element (BEM) and mesh reduction methods (MRM) are very active areas of research with the techniques being applied to solve increasingly complex problems. The journal stresses the importance of these applications as well as their computational aspects, reliability and robustness. The main criteria for publication will be the originality of the work being reported, its potential usefulness and applications of the methods to new fields. In addition to regular issues, the journal publishes a series of special issues dealing with specific areas of current research. The journal has, for many years, provided a channel of communication between academics and industrial researchers working in mesh reduction methods Fields Covered: • Boundary Element Methods (BEM) • Mesh Reduction Methods (MRM) • Meshless Methods • Integral Equations • Applications of BEM/MRM in Engineering • Numerical Methods related to BEM/MRM • Computational Techniques • Combination of Different Methods • Advanced Formulations.