Title :
Numerical modeling of an optical beam-splitter by the time-domain wavelet-collocation technique
Author :
Fujii, Masafumi ; Russer, Peter ; Hoefer, Wolfgang J R
Author_Institution :
Lab. for High Frequency Technique, Tech. Univ. of Munich, Germany
Abstract :
Biorthogonal interpolating functions have been applied to electromagnetic field modeling through the wavelet-collocation technique in the time domain, yielding a versatile first-principle algorithm for the solution of time dependent Maxwell´s equations with inhomogeneous media. The resulting technique is rigorous and maintains high accuracy, while, by virtue of its sub-gridding capability, significant reduction of the computational requirement has been obtained particularly for the modeling of electrically large dielectric waveguides. The proposed technique has been applied to a two dimensional dielectric waveguide beam splitter, with dimensions typical of optical waveguide systems, and improvement in the computational efficiency has been demonstrated.
Keywords :
Maxwell equations; computational electromagnetics; inhomogeneous media; interpolation; optical beam splitters; optical waveguide theory; time-domain analysis; wavelet transforms; 2D dielectric waveguide beam splitters; algorithm sub-gridding capability; biorthogonal interpolating functions; computational efficiency improvement; computational requirement reduction; electrically large dielectric waveguides; electromagnetic field modeling; inhomogeneous media; optical beam-splitter numerical modeling; optical waveguide system dimensions; time dependent Maxwell equations solution; time-domain wavelet-collocation techniques; Biomedical optical imaging; Dielectrics; Electromagnetic fields; Electromagnetic modeling; Electromagnetic waveguides; Numerical models; Optical beams; Optical waveguides; Time domain analysis; Wavelet domain;
Conference_Titel :
Microwaves, Radar and Wireless Communications, 2002. MIKON-2002. 14th International Conference on
Print_ISBN :
83-906662-5-1
DOI :
10.1109/MIKON.2002.1017905
