Title :
Extended theory of FDTD S- and P-eigenmodes in lossy media and its application to the analysis of coupled problems
Author :
Celuch-Marcysiak, Malgorzata
Author_Institution :
Inst. of Radioelectronics, Warsaw Univ. of Technol., Poland
Abstract :
FDTD solutions in lossy media are shown to comprise two orthogonal families of S- and P-eigenmodes. The S-modes are counterparts of physical waves, retaining their fundamental properties such as current continuity. Contrary to the lossless case, they are subject to bilateral dispersion, although the numerical anisotropy of the FDTD mesh is actually reduced. The P-modes do not propagate and decay exponentially in time. This makes Maxwell FDTD suitable for coupling with other physical solvers, which may change the electromagnetic media properties and boundaries in time. Any thus generated numerical changes are included in and dissipated by the P-modes.
Keywords :
Maxwell equations; anisotropic media; computational electromagnetics; convergence of numerical methods; coupled mode analysis; eigenvalues and eigenfunctions; finite difference time-domain analysis; FDTD mesh; FDTD solutions; Maxwell equations; P-eigenmodes; S-eigenmodes; bilateral dispersion; coupled problems analysis; current continuity; electromagnetic media; lossless case; lossy media; numerical analysis; numerical anisotropy; orthogonal families; physical solvers; physical waves; Anisotropic magnetoresistance; Concurrent computing; Dispersion; Electromagnetic coupling; Electromagnetic propagation; Finite difference methods; Maxwell equations; Numerical analysis; Physics computing; Time domain analysis;
Conference_Titel :
Microwave Symposium Digest, 2004 IEEE MTT-S International
Print_ISBN :
0-7803-8331-1
DOI :
10.1109/MWSYM.2004.1338922
