Analysis of the linewidth of a grating-feedback GaAlAs laser
- 1 October 2000
- journal article
- Published by Institute of Electrical and Electronics Engineers (IEEE) in IEEE Journal of Quantum Electronics
- Vol. 36 (10) , 1193-1198
- https://doi.org/10.1109/3.880660
Abstract
Effects of external optical feedback from a reflection grating on the linewidth of a GaAlAs semiconductor laser operating at 780 nm are investigated. Accurate linewidth measurements as a function of the laser frequency tuning have been performed by applying the self-homodyne technique with a short delay line. A realistic coupled-cavity model, which incorporates the frequency-dependent reflection from the grating, is used to explain the measured data. The agreement between the theoretical and experimental results was found to be good.Keywords
This publication has 21 references indexed in Scilit:
- Laser linewidth measurements using self-homodyne detection with short delayOptics Communications, 1998
- External cavity semiconductor laser with a Fourier grating and an aspheric lensApplied Optics, 1993
- Intermodal tuning characteristics of an InGaAsP laser with optical feedback from an external-grating reflectorIEEE Journal of Quantum Electronics, 1990
- External grating tunable MQW laser with wide tuning range of 240 nmElectronics Letters, 1990
- Transmission line description of optical feedback and injection locking for Fabry-Perot and DFB lasersIEEE Journal of Quantum Electronics, 1987
- The relation of line narrowing and chirp reduction resulting from the coupling of a semiconductor laser to passive resonatorIEEE Journal of Quantum Electronics, 1987
- Linewidth broadening factor in semiconductor lasers--An overviewIEEE Journal of Quantum Electronics, 1987
- Stability analysis for a semiconductor laser in an external cavityIEEE Journal of Quantum Electronics, 1984
- Theory of the linewidth of semiconductor lasersIEEE Journal of Quantum Electronics, 1982
- Coherent optical interference effects in external-cavity semiconductor lasersIEEE Journal of Quantum Electronics, 1981