Title :
Experimental analysis of self-pulsation 650-nm-wavelength AlGaInP laser diodes with epitaxial absorbing layers
Author :
Summers, H.D. ; Molloy, C.H. ; Smowton, P.M. ; Rees, P. ; Pierce, I. ; Jones, D.R.
Author_Institution :
Dept. of Phys. & Astron., Univ. of Wales Coll. of Cardiff, UK
Abstract :
We have produced self-pulsating 650-nm-wavelength AlGaInP lasers by the inclusion of saturable absorbing quantum quantum wells (QWs) within the p-doped cladding layer. To maintain the pulsation characteristics at high temperature, a multiple QW design has been used. This reduces the saturation of the absorbing layers due to thermally activated charge leakage from the active region of the laser, thus enabling strong self-pulsation up to a maximum temperature of 100°C. The dynamic characteristics of the absorber wells have been measured using time-resolved photoluminesence techniques on the laser structures. The results indicate that the carrier lifetime in the absorber is determined by nonradiative processes with a typical decay time of 0.3 ns
Keywords :
III-V semiconductors; aluminium compounds; carrier lifetime; claddings; gallium compounds; indium compounds; laser beams; optical saturable absorption; photoluminescence; quantum well lasers; semiconductor epitaxial layers; time resolved spectra; 100 C; 650 nm; AlGaInP; AlGaInP laser diodes; absorber wells; absorbing layers; active region; carrier lifetime; decay time; dynamic characteristics; epitaxial absorbing layers; laser structures; maximum temperature; multiple QW design; nonradiative processes; p-doped cladding layer; pulsation characteristics; saturable absorbing quantum quantum wells; saturation; self-pulsation laser diode; strong self-pulsation; thermally activated charge leakage; time-resolved photoluminesence techniques; Absorption; Diode lasers; Epitaxial layers; Laser theory; Nonlinear optics; Optical bistability; Optical saturation; Quantum well lasers; Semiconductor lasers; Temperature;
Journal_Title :
Selected Topics in Quantum Electronics, IEEE Journal of
DOI :
10.1109/2944.788446
