Modelling pulse propagation in semiconductor optical amplifiers using wavelets

Author

Pierce, I. ; Shore, K.A.

Author_Institution

School of Electronic Eng. & Comput. Syst., Univ. of Wales, Bangor, UK

Volume

145

Issue

1

fYear

1998

fDate

2/1/1998 12:00:00 AM

Firstpage

88

Lastpage

92

Abstract

A model based on the discrete wavelet transform is presented for the description of short pulse propagation in semiconductor optical amplifiers. The approach is used to analyse amplifier performance taking account of gain saturation carrier heating, group velocity dispersion and self-phase modulation. Using parameters obtained from fitting to experimental data, simulations are performed that compare well with measured results for semiconductor optical amplifiers and show good agreement with other modelling approaches. The wavelet transform leads naturally to a time-scale representation of the pulse evolution, where the signal is split into a coarse approximation together with a series of local refinements that reveal pulse fine structure which is not apparent in the time domain

Keywords

approximation theory; electro-optical modulation; laser theory; optical dispersion; phase modulation; semiconductor device models; semiconductor lasers; wavelet transforms; amplifier performance; coarse approximation; discrete wavelet transform; gain saturation carrier heating; group velocity dispersion; local refinements; pulse evolution; pulse fine structure; pulse propagation modelling; self-phase modulation; semiconductor optical amplifiers; short pulse propagation; time domain; time-scale representation; wavelets;

fLanguage

English

Journal_Title

Optoelectronics, IEE Proceedings -

Publisher

iet

ISSN

1350-2433

Type

jour

DOI

10.1049/ip-opt:19981762

Filename

668014