Adaptive multiresolution split-step wavelet collocation method for nonlinear optical pulse propagation

Author

Kremp, T. ; Killi, A. ; Freude, W. ; Rieder, A.

Author_Institution

High-Frequency & Quantum Electron. Lab., Karlsruhe Univ., Germany

fYear

2002

fDate

24-24 May 2002

Abstract

Summary form only given. Pulse propagation in a nonlinear optical medium is described by the nonlinear Schrodinger equation (NLSE). For large wavelength division multiplexing (WDM) systems, the simulation time can run into weeks. We developed a new, flexible, fast and adaptive split-step wavelet collocation method (SSWCM) which provides a substantial speed-up compared to the standard split-step Fourier method (SSFM).

Keywords

Schrodinger equation; nonlinear optics; optical fibre communication; wavelength division multiplexing; WDM systems; adaptive split-step wavelet collocation method; large wavelength division multiplexing systems; nonlinear Schrodinger equation; nonlinear optical medium; nonlinear optical pulse propagation; pulse propagation; standard split-step Fourier method; Computational modeling; Laboratories; Mathematical model; Network address translation; Optical computing; Optical propagation; Optical pulses; Quantum computing; Spatial resolution; Wavelength division multiplexing;

fLanguage

English

Publisher

ieee

Conference_Titel

Lasers and Electro-Optics, 2002. CLEO '02. Technical Digest. Summaries of Papers Presented at the

Conference_Location

Long Beach, CA, USA

Print_ISBN

1-55752-706-7

Type

conf

DOI

10.1109/CLEO.2002.1034289

Filename

1034289