Simulation of inhomogeneous broadening and mode-beating effects in semiconductor lasers

Author

Chua, S.J. ; Loh, W.H.

Author_Institution

National University of Singapore, Department of Electrical Engineering, Singapore, Singapore

Volume

135

Issue

4

fYear

1988

fDate

8/1/1988 12:00:00 AM

Firstpage

310

Lastpage

317

Abstract

A model is proposed in which the conduction band is discretised into energy intervals corresponding to longitudinal-mode separations for the simulation of inhomogeneous broadening and mode beating effects in semiconductor lasers. Four first-order relaxation processes are proposed to take account of intraband relaxations, and mode beating is included as a separate nonlinear gain term in the rate equations. In addition to the usual results of spectral-hole burning, single longitudinal-mode stabilisation and increased damping of relaxation oscillations, the model also accounts for the excitation of nonadjacent longitudinal modes experimentally observed at high bias in narrow planar-stripe lasers and the temperature dependence of spectral behaviour in CSP lasers.

Keywords

laser modes; optical hole burning; semiconductor junction lasers; spectral line breadth; CSP lasers; channelled substrate planar lasers; conduction band; energy intervals; first-order relaxation processes; inhomogeneous broadening; intraband relaxations; longitudinal-mode separations; longitudinal-mode stabilisation; mode-beating effects; nonadjacent longitudinal mode excitation; nonlinear gain; planar-stripe lasers; relaxation oscillation damping; relaxation oscillations; semiconductor lasers; spectral behaviour; spectral-hole burning; temperature dependence;

fLanguage

English

Journal_Title

Optoelectronics, IEE Proceedings J

Publisher

iet

ISSN

0267-3932

Type

jour

DOI

10.1049/ip-j.1988.0059

Filename

4648739