Title :
InGaN multiquantum-well-structure laser diodes with GaN-AlGaN modulation-doped strained-layer superlattices
Author_Institution :
Dept. of Res. & Dev., Nichia Chem. Ind. Ltd., Tokushima, Japan
Abstract :
InGaN multiquantum-well-structure (MQW) laser diodes with Al0.14Ga0.86N-GaN modulation doped strained-layer superlattice (MD-SLS) cladding layers grown on an epitaxially laterally overgrown GaN substrate was demonstrated to have a lifetime of more than 2300 h under the condition of room-temperature continuous-wave operation. The self-pulsation was observed with a frequency of 3.5 GHz. The relative intensity noise less than -145 dB/Hz was obtained even at the 6% optical feedback using the high-frequency modulation of 600 MHz. The threshold carrier density of the InGaN MQW-structure laser diodes was estimated to be 3×1019/cm3 using a carrier lifetime of 1.8 ns
Keywords :
III-V semiconductors; carrier density; carrier lifetime; claddings; gallium compounds; indium compounds; laser feedback; life testing; optical testing; quantum well lasers; semiconductor device testing; semiconductor doping; semiconductor superlattices; 1.8 ns; 2300 h; Al0.14Ga0.86N-GaN; Al0.14Ga0.86N-GaN modulation doped strained-layer superlattice cladding layers; GaN-AlGaN; GaN-AlGaN modulation-doped strained-layer superlattices; InGaN; InGaN MQW laser diodes; InGaN MQW-structure laser diodes; InGaN multiquantum-well-structure laser diodes; carrier lifetime; epitaxially laterally overgrown GaN substrate; high-frequency modulation; optical feedback; relative intensity noise; room-temperature continuous-wave operation; self-pulsation; threshold carrier density; Diode lasers; Epitaxial layers; Frequency; Gallium nitride; Intensity modulation; Optical feedback; Optical noise; Quantum well devices; Substrates; Superlattices;
Journal_Title :
Selected Topics in Quantum Electronics, IEEE Journal of
DOI :
10.1109/2944.704105
