Numerical studies on soliton propagation in dielectric media by the nonlinear Lorentz computational model

Author

Abe, Hirotada ; Okuda, Hideo

Volume

31

Issue

6

fYear

1995

fDate

6/1/1995 12:00:00 AM

Firstpage

1098

Lastpage

1106

Abstract

Soliton propagation in the dielectric media has been simulated by using the nonlinear Lorentz computational model, which was recently developed to study the propagation of electromagnetic waves in a linear and a nonlinear dielectric. The model is constructed by combining a microscopic model used in the semi-classical approximation for dielectric media and the particle model developed for plasma simulations. The carrier wave frequency is retained in the simulation so that not only the envelope of the soliton but also its phase can be followed in time. It is shown that the model may be useful for studying pulse propagation in the dielectric media

Keywords

dielectric materials; electromagnetic wave propagation; nonlinear optics; optical solitons; simulation; carrier wave frequency; dielectric media; electromagnetic wave propagation; linear dielectric; nonlinear Lorentz computational model; nonlinear dielectric; numerical studies; plasma simulations; pulse propagation i; semi-classical approximation; simulation; soliton propagation; Computational modeling; Dielectrics; Dispersion; Electromagnetic modeling; Electromagnetic propagation; Electromagnetic scattering; Frequency; Optical propagation; Solid modeling; Solitons;

fLanguage

English

Journal_Title

Quantum Electronics, IEEE Journal of

Publisher

ieee

ISSN

0018-9197

Type

jour

DOI

10.1109/3.387048

Filename

387048