Title :
Full wave vector Maxwell equation simulation of nonlinear self-focusing effects in three spatial dimensions
Author :
Polstyanko, Sergey V. ; Dyczij-Edlinger, Romanus ; Lee, Jin-Fa
Author_Institution :
ECE Dept., Worcester Polytech. Inst., MA, USA
fDate :
3/1/1997 12:00:00 AM
Abstract :
In our effort to meet an increasing demand for more accurate and realistic nonlinear optics simulations, we have developed a nonlinear hybrid vector finite element method (NL-HVFEM) to study different phenomena due to wave propagation in waveguides filled with nonlinear Kerr-type media. Contrary to the most existing scalar models, the NL-HVFEM approach is based upon the vector Helmholtz equation and thus can predict the vectorial properties of fields in nonlinear media. We describe the NL-HVFEM approach and apply it to study nonlinear self-focusing effects in nonlinear waveguides. The numerical results of the evolution of the beam self-focusing are also included. Also, we summarized conditions under which electromagnetic beam can produce its own dielectric waveguide and propagate without spreading
Keywords :
Helmholtz equations; Maxwell equations; dielectric waveguides; nonlinear optics; optical Kerr effect; optical waveguide theory; NL-HVFEM approach; beam self-focusing; dielectric waveguide; electromagnetic beam; fields; full wave vector Maxwell equation simulation; isotropic media; nonlinear Kerr-type media; nonlinear hybrid vector finite element method; nonlinear media; nonlinear optics simulations; nonlinear self-focusing effects; nonlinear waveguides; scalar models; three spatial dimensions; vector Helmholtz equation; vectorial properties; wave propagation; Beams; Dielectrics; Electromagnetic waveguides; Finite element methods; Maxwell equations; Nonlinear equations; Nonlinear optics; Optical propagation; Optical waveguides; Predictive models;
Journal_Title :
Magnetics, IEEE Transactions on
