Title :
Marching finite-element schemes for nonlinear optical propagation
Author :
Brandão, M.L. ; Figueroa, H.E.H.
Author_Institution :
Departamento de Engenharia de Eletricidade, Universidade Federal do Maranhao, Brazil
Abstract :
The comparison of the various techniques introduced in the literature together with a new scheme reported here have been applied to the study of a nonlinear directional coupler made, of two identical buried guides of non-linear Kerr-type materials. A new stable and accurate marching finite-element scheme based on the split-operator technique, is described for the scalar propagation analysis of optical waveguides with arbitrary cross-section and inhomogeneous nonlinear dielectrics. In this method, to keep the scheme explicit, the refraction contribution is computed by its corresponding Taylor expansion. Extensive numerical experiments have shown that the number of terms in the taylor expansion is important to ensure global accuracy, and stability for the present approach
Keywords :
finite element analysis; light refraction; nonlinear optics; optical Kerr effect; optical directional couplers; optical waveguide theory; Taylor expansion; arbitrary cross-section; buried guides; global accuracy; inhomogeneous nonlinear dielectrics; marching finite-element schemes; nonlinear Kerr-type materials; nonlinear directional coupler; nonlinear optical propagation; optical waveguides; refraction contribution; scalar-propagation analysis; split-operator technique; Dielectric materials; Directional couplers; Finite element methods; Nonlinear optics; Optical materials; Optical propagation; Optical refraction; Optical waveguides; Stability; Taylor series;
Conference_Titel :
Physics and Engineering of Millimeter and Sub-Millimeter Waves, 2001. The Fourth International Kharkov Symposium on
Conference_Location :
Kharkov
Print_ISBN :
0-7803-6473-2
DOI :
10.1109/MSMW.2001.946765
