Band-structure engineering in strained semiconductor lasers
- 1 February 1994
- journal article
- Published by Institute of Electrical and Electronics Engineers (IEEE) in IEEE Journal of Quantum Electronics
- Vol. 30 (2) , 366-379
- https://doi.org/10.1109/3.283784
Abstract
The influence of both compressive and tensile strain on semiconductor lasers and optical amplifiers is reevaluated in the light of recent experimental and theoretical work. Strain reduces the three-dimensional symmetry of the lattice and helps match the wave functions of the holes to the one-dimensional symmetry of the laser beam. It can also decrease the density of states at the valence band maximum and so reduce the carrier density required to reach threshold. These two effects appear to adequately explain the TE and TM gain in compressive and tensile structures, including polarization-independent amplifiers, the behavior of visible lasers and the improved frequency characteristics of InGaAs/GaAs lasers. In 1.5 mym InGaAsP/InP lasers phonon-assisted Auger recombination appears to remain the dominant current path and can explain why the temperature sensitivity parameter T0 remains smaller than 100 K at room temperatureKeywords
This publication has 74 references indexed in Scilit:
- Intervalence band absorption coefficient measurements in bulk layer, strained and unstrained multiquantum well 1.55 μm semiconductor lasersElectronics Letters, 1993
- Polarization insensitive strained quantum well gain medium for lasers and optical amplifiersApplied Physics Letters, 1992
- 25 GHz bandwidth 1.55 μm GaInAsP p -doped strained multiquantum-well lasersElectronics Letters, 1992
- Well-barrier hole burning in quantum well lasersIEEE Photonics Technology Letters, 1991
- Low threshold 1.5 μm tensile-strained single quantum well lasersElectronics Letters, 1991
- Nonlinear gain effects in strained-layer lasersElectronics Letters, 1990
- Extremely high-frequency (24 GHz) InGaAsP diode lasers with excellent modulation efficiencyElectronics Letters, 1990
- Theory of hot carrier effects on nonlinear gain in GaAs-GaAlAs lasers and amplifiersIEEE Journal of Quantum Electronics, 1990
- Polarization insensitive traveling wave type amplifier using strained multiple quantum well structureIEEE Photonics Technology Letters, 1990
- Modulation-Doped Multi-Quantum Well (MD-MQW) Lasers. I. TheoryJapanese Journal of Applied Physics, 1990