Theoretical optimization of self-pulsating 650-nm-wavelength AlGaInP laser diodes

Author

Jones, D.R. ; Rees, P. ; Pierce, I. ; Summers, H.D.

Author_Institution

Sch. of Electr. Eng. & Comput. Syst., Univ. of Wales, Bangor, UK

Volume

5

Issue

3

fYear

1999

Firstpage

740

Lastpage

744

Abstract

Self-pulsating laser diodes operating at a wavelength of 650 nm are attractive for high-density optical storage. The main candidate for such a device is an AlGaInP laser diode including an epitaxially integrated saturable absorber. The characteristic self-pulsation occurs due to the interplay between gain in the active region and the absorption within the structure. In the paper, we calculate the dynamics of self-pulsation in this type of AlGaInP laser diode, including a detailed description of gain and absorption within the relative sections. In particular, we identify how, by modifying the structure of the epitaxial absorber layers, we can alter the operating characteristics of these laser diodes

Keywords

III-V semiconductors; aluminium compounds; gallium compounds; indium compounds; integrated optics; laser beams; optical saturable absorption; optical storage; optimisation; quantum well lasers; semiconductor epitaxial layers; 650 nm; AlGaInP; AlGaInP lasers; absorption; active region; dynamics; epitaxial absorber layer; epitaxially integrated saturable absorber; gain; high-density optical storage; laser diodes; operating characteristics; self-pulsating laser diodes; self-pulsating lasers; self-pulsation; theoretical optimization; Absorption; DVD; Diode lasers; Laser modes; Laser theory; Physics; Quantum well lasers; Semiconductor lasers; Semiconductor process modeling; Temperature;

fLanguage

English

Journal_Title

Selected Topics in Quantum Electronics, IEEE Journal of

Publisher

ieee

ISSN

1077-260X

Type

jour

DOI

10.1109/2944.788445

Filename

788445