Correlation between strain fields on the facet and along the cavity in semiconductor diode lasers
- 15 April 1995
- journal article
- research article
- Published by AIP Publishing in Journal of Applied Physics
- Vol. 77 (8) , 3762-3765
- https://doi.org/10.1063/1.358549
Abstract
Strain fields on the facet and along the cavity for both ridge waveguide and oxide stripe geometry lasers were measured. The strain fields were found to be structure dependent across the stripe and essentially uniform along the stripe. A correlation between the strain in the plane of the facet and the strain along the cavity was found. This means that the strain field observed on the facet is representative of the average strain along the device and that facet measurements provide useful information on material properties along the length of the device.This publication has 10 references indexed in Scilit:
- Strain measurement and estimation of photoelastic effects and strain-induced optical gain change in ridge waveguide lasersJournal of Applied Physics, 1995
- Imaging of stresses in GaAs diode lasers using polarization-resolved photoluminescenceIEEE Journal of Quantum Electronics, 1993
- Observation of dislocation stresses in InP using polarization-resolved photoluminescenceApplied Physics Letters, 1992
- Bonding stress measurements from the degree of polarization of facet emission of AlGaAs superluminescent diodesIEEE Journal of Quantum Electronics, 1991
- Spatially and polarization resolved electroluminescence of 13-μm InGaAsP semiconductor diode lasersApplied Optics, 1989
- Effects of stress on threshold, wavelength, and polarization of the output of InGaAsP semiconductor diode lasersJournal of Applied Physics, 1988
- Degradation of active region in InGaAsP/InP buried heterostructure lasersJournal of Applied Physics, 1985
- Effect of uniaxial stress on optical gain in semiconductorsJournal of Applied Physics, 1984
- Improvement in operation lives of GaAlAs visible lasers by introducing GaAlAs buffer layersIEEE Journal of Quantum Electronics, 1981
- Photoelastic waveguides and their effect on stripe-geometry GaAs/Ga1−xAlxAs lasersJournal of Applied Physics, 1979