Title :
Optimizing the Gaussian excitation function in the finite difference time domain method
Author :
Shin, Chang-Seok ; Nevels, Robert
Author_Institution :
Dept. of Electr. Eng., Texas A&M Univ., College Station, TX, USA
fDate :
2/1/2002 12:00:00 AM
Abstract :
A systematic method is presented for determining the optimal pulsewidth and variance of a Gaussian excitation function in the finite difference time domain (FDTD) method. We highlight the interaction of several criteria, such as the stability condition, machine precision limits, the numerical grid cutoff frequency, and the dispersion relation, that play crucial roles in the design of the initial pulse. Optimal Gaussian pulse design is desirable if numerical dispersion, an inherent yet unavoidable property of the standard second-order FDTD Yee algorithm, is to be minimized. A method for determining the phase error of a Gaussian pulse is also presented
Keywords :
electromagnetic wave propagation; finite difference time-domain analysis; optimisation; FDTD method; Gaussian excitation function; Gaussian pulse design; dispersion relation; electromagnetic field problems; finite difference time domain; machine precision limits; numerical dispersion; numerical grid cut-off frequency; optimal pulsewidth; phase error; second-order FDTD Yee algorithm; stability condition; Cutoff frequency; Dispersion; Electromagnetic fields; Electromagnetic scattering; Finite difference methods; Lattices; Optimization methods; Space vector pulse width modulation; Stability criteria; Time domain analysis;
Journal_Title :
Education, IEEE Transactions on
