Title :
Nonstandard FDTD Method for Wideband Analysis
Author :
Ohtani, Tadao ; Taguchi, Kenji ; Kashiwa, Tatsuya ; Kanai, Yasushi ; Cole, James B.
Author_Institution :
Nagoya Aerosp. Syst., Mitsubishi Heavy Ind., Ltd., Nagoya, Japan
Abstract :
The nonstandard (NS) FDTD algorithm can compute electromagnetic propagation with very high accuracy on a coarse grid, but only for monochromatic or narrow-band signals. We have developed a wideband (W) NS-FDTD algorithm that overcomes this limitation. In NS-FDTD special finite difference operators are used to make the numerical dispersion isotropic, which is then corrected by a frequency-dependent factor. In WNS-FDTD the numerical dispersion is modeled as frequency-dependent electrical permittivity and magnetic permeability, and the Yee algorithm is augmented by correction terms in the time domain. We demonstrate the high accuracy of WNS-FDTD in example problems, and show that it gives better results than both the standard (S) FDTD and the FDTD(2,4) algorithms.
Keywords :
electromagnetic wave propagation; finite difference time-domain analysis; electrical permittivity; electromagnetic propagation; finite difference time-domain analysis; frequency-dependent factor; magnetic permeability; nonstandard FDTD method; numerical dispersion; wideband analysis; Electromagnetic propagation; Finite difference methods; Frequency; Grid computing; Narrowband; Numerical models; Permeability; Permittivity; Time domain analysis; Wideband; FDTD methods; nonstandard FDTD; numerical dispersion; phase velocity; pulse response; wideband analysis;
Journal_Title :
Antennas and Propagation, IEEE Transactions on
DOI :
10.1109/TAP.2009.2024467
