论文信息 - Reduction of numerical dispersion in FDTD method through artificial anisotropy

Reduction of numerical dispersion in FDTD method through artificial anisotropy

In this paper, a simple and computationally low-cost modification of the standard finite-difference time-domain (FDTD) algorithm is presented to reduce numerical dispersion in the algorithm. Both two- and three-dimensional cases are considered. It is shown that the maximum error in phase velocity can be reduced by a factor of 2-7, depending on the shape of the FDTD cell. Although the reduction procedure is optimal for only single frequency, numerical examples show that the proposed method can also improve the accuracy significantly in wide-band inhomogeneous problems.

Theodoros D. Tsiboukis | J. S. Juntunen

[1] An Ping Zhao,et al. Generalized material-independent PML absorbers for the FDTD simulation of electromagnetic waves in arbitrary anisotropic dielectric and magnetic media , 1998 .

[2] Wolfgang J. R. Hoefer,et al. A new finite-difference time-domain formulation and its equivalence with the TLM symmetrical condensed node , 1991 .

[3] Allen Taflove,et al. Computational Electrodynamics the Finite-Difference Time-Domain Method , 1995 .

[4] Antti V. Räisänen,et al. A fast and efficient FDTD algorithm for the analysis of planar microstrip discontinuities by using a simple source excitation scheme , 1995 .

[5] Allen Taflove,et al. The Finite-Difference Time-Domain Method for Numerical Modeling of Electromagnetic Wave Interactions , 1990 .

[6] Juha Ala-Laurinaho,et al. Numerical modeling of a nonuniform grating with FDTD , 1997 .

[7] James G. Maloney,et al. A simple FDTD model for transient excitation of antennas by transmission lines , 1994 .

[8] Zhang Xiaolei,et al. Time-domain finite difference approach to the calculation of the frequency-dependent characteristics of microstrip discontinuities , 1988 .

[9] A. Cangellaris,et al. Numerical stability and numerical dispersion of a compact 2-D/FDTD method used for the dispersion analysis of waveguides , 1993, IEEE Microwave and Guided Wave Letters.

[10] Peter Russer,et al. On the dispersion in TLM and FDTD , 1994 .