High-power and low-divergence 980-nm InGaAs-GaAsP-AlGaAs strain-compensated quantum-well diode laser grown by MOCVD

High-power and low-divergence 980-nm InGaAs-GaAsP-AlGaAs strain-compensated quantum-well diode laser grown by MOCVD

High-power InGaAs-GaAsP-AlGaAs strain-compensated separate-confinement heterostructure double quantum-well lasers emitting at 980-nm wavelength have been grown by low-pressure metal-organic epitaxial chemical vapor deposition. Fabricated with a ridge waveguide, the lasers achieved an output power of...

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Veröffentlicht in:IEEE photonics technology letters 2003-11, Vol.15 (11), p.1507-1509
Hauptverfasser: Jun Zhao, Li, L., Wumin Wang, Yicheng Lu
Format: Artikel
Sprache:eng
Schlagworte:
Beams (radiation)
Chemical lasers
Chemical vapor deposition
Diode lasers
Epitaxial growth
Far fields
Fiber lasers
Laser modes
Lasers
MOCVD
Optimization
Power generation
Power lasers
Quantum well lasers
Quantum wells
Ridges
Waveguide lasers
Wavelengths
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Zusammenfassung:High-power InGaAs-GaAsP-AlGaAs strain-compensated separate-confinement heterostructure double quantum-well lasers emitting at 980-nm wavelength have been grown by low-pressure metal-organic epitaxial chemical vapor deposition. Fabricated with a ridge waveguide, the lasers achieved an output power of 386 mW in the fundamental lateral mode without any kink being observed. By optimizing the laser structure parameters, a very low transverse beam divergence of 22.1/spl deg/ and a high slope efficiency of up to 0.89 mW/mA were obtained. The narrow transverse far field enables an output power of over 290 mW to be coupled into a single-mode fiber with a high coupling efficiency of 83.2% at 430 mA. Life testing at various powers shows excellent long-term reliability after 3500 h.
ISSN:1041-1135
1941-0174
DOI:10.1109/LPT.2003.818660