Simple expressions for the linewidth enhancement factor in direct-gap semiconductors

Author

Westbrook, L.D. ; Adams, M.J.

Author_Institution

British Telecom, BT Research Laboratories, Ipswich, UK

Volume

134

Issue

4

fYear

1987

fDate

8/1/1987 12:00:00 AM

Firstpage

209

Lastpage

214

Abstract

Simple explicit expressions have been derived for the linewidth enhancement factor ¿¿ and the change in refractive index with injected carrier density in direct-gap semiconductors. Both strict and partial conservation of crystal momentum have been considered. Both models yield the same expressions for ¿¿. Excellent agreement is found both between these expressions and numerical Kramers-Kronig transforms and with experimental data for ¿¿ = 1.5 ¿¿m InGaAsP. As a consequence of this analysis the factors which influence the linewidth enhancement factor can be readily understood for the first time. In particular the band-to-band contribution to ¿¿ is shown to depend, in a simple way, only on the temperature, the position of the conduction band quasi-Fermi level and the difference between the photon and band-gap energies.

Keywords

III-V semiconductors; Kramers-Kronig relations; energy gap; gallium arsenide; gallium compounds; indium compounds; laser transitions; refractive index; semiconductor junction lasers; semiconductors; spectral line breadth; 1.5 micron; InGaAsP; band-gap energies; carrier density; conduction band; direct-gap semiconductors; linewidth enhancement factor; numerical Kramers-Kronig transforms; partial crystal momentum conservation; photon energies; quasi-Fermi level position; refractive index; semiconductor; semiconductors; strict crystal momentum conservation;

fLanguage

English

Journal_Title

Optoelectronics, IEE Proceedings J

Publisher

iet

ISSN

0267-3932

Type

jour

DOI

10.1049/ip-j.1987.0037

Filename

4644394