Title :
FDTD Schemes With Minimal Numerical Dispersion
Author :
Ogurtsov, Stanislav ; Georgakopoulos, Stavros V.
Author_Institution :
Dept. of Electr. & Comput. Eng., Florida Int. Univ., Miami, FL
Abstract :
A novel formulation of hybrid finite-difference time-domain (FDTD) methods is presented. Significant reduction of numerical dispersion is achieved by the proposed FDTD methods that combine the second-order and higher-order finite-differences. Also, the proposed FDTD methods exhibit significantly higher solution accuracy than the accuracy of standard FDTD schemes as a result of partial mutual cancellation of numerical errors provided by the developed FDTD update procedure. The residual numerical error of the phase velocity remains low even for sampling of a few points per wavelength. Also, the FDTD schemes based on the proposed approach are faster and more accurate than the corresponding purely higher-order FDTD schemes with the same mesh. Test examples are provided for validation purposes.
Keywords :
dispersion relations; error analysis; finite difference time-domain analysis; FDTD method; FDTD update procedure; hybrid finite-difference time-domain method; numerical dispersion; phase velocity; residual numerical error; second-order finite-differences; Algorithm design and analysis; Dispersion; Eigenvalues and eigenfunctions; Error correction; Finite difference methods; Maxwell equations; Sampling methods; Standards development; Testing; Time domain analysis; Finite-difference time-domain (FDTD) numerical dispersion; numerical error; numerical phase velocity;
Journal_Title :
Advanced Packaging, IEEE Transactions on
DOI :
10.1109/TADVP.2008.2008100
