Title :
Theoretical investigation of InGaN self-pulsating laser diodes for optical storage applications
Author :
Jones, D.R. ; Rees, P. ; Pierce, I.
Author_Institution :
Eblana Photonics, Trinity Coll. Enterprise Centre, Dublin
fDate :
12/1/2006 12:00:00 AM
Abstract :
Self-pulsating laser diodes operating at 420 nm are required in high-density optical storage devices. By growing saturable absorbing quantum wells in the p-doped cladding layer, of a semiconductor laser, it is possible to obtain the interplay between gain and absorption, which is required for pulsation. The dynamics of self-pulsating InGaN laser diodes are investigated to gain an insight into how the quantum-well configuration in the absorber and the cavity length affect the laser output. In particular, the work shows how a carefully designed structure gives rise to stable self-pulsation up to a temperature of 100degC while offering high powered emission at low operating currents. As a result, such blue-emitting laser diodes are highly desirable for use within next-generation optical storage devices
Keywords :
III-V semiconductors; gallium compounds; indium compounds; laser cavity resonators; optical pulse generation; optical saturable absorption; optical storage; quantum well lasers; wide band gap semiconductors; 100 degC; 420 nm; InGaN; InGaN self-pulsating laser diodes; blue-emitting laser diodes; cavity length; optical storage; p-doped cladding layer; saturable absorbing quantum wells;
Journal_Title :
Optoelectronics, IEE Proceedings -
DOI :
10.1049/ip-opt:20060051
