標題: Electromagnetic field behavior of 3D Maxwell's equations for chiral media
作者: Huang, Tsung-Ming
Li, Tiexiang
Chern, Ruey-Lin
Lin, Wen-Wei
應用數學系
Department of Applied Mathematics
關鍵字: Maxwell's equations;Three-dimensional chiral medium;Null-space free eigenvalue problem;Shift-invert residual Arnoldi method;Anticrossing eigencurves;Resonance mode
公開日期: 15-Feb-2019
摘要: This article focuses on numerically studying the eigenstructure behavior of generalized eigenvalue problems (GEPs) arising in three dimensional (3D) source-free Maxwell's equations with magnetoelectric coupling effects which model 3D reciprocal chiral media. It is challenging to solve such a large-scale GEP efficiently. We combine the null-space free method with the inexact shift-invert residual Arnoldi method and MINRES linear solver to solve the GEP with a matrix dimension as large as 5,308,416. The eigenstructure is heavily determined by the chirality parameter gamma. We show that all the eigenvalues are real and finite for a small chirality gamma. For a critical value gamma = gamma*, the GEP has 2 x 2 Jordan blocks at infinity eigenvalues. Numerical results demonstrate that when gamma increases from gamma*, the 2 x 2 Jordan block will first split into a complex conjugate eigenpair, then rapidly collide with the real axis and bifurcate into positive (resonance) and negative eigenvalues with modulus smaller than the other existing positive eigenvalues. The resonance band also exhibits an anticrossing interaction. Moreover, the electric and magnetic fields of the resonance modes are localized inside the structure, with only a slight amount of field leaking into the background (dielectric) material. (C) 2018 Elsevier Inc. All rights reserved.
URI: http://dx.doi.org/10.1016/j.jcp.2018.11.026
http://hdl.handle.net/11536/148754
ISSN: 0021-9991
DOI: 10.1016/j.jcp.2018.11.026
期刊: JOURNAL OF COMPUTATIONAL PHYSICS
Volume: 379
起始頁: 118
結束頁: 131
Appears in Collections:Articles