DocumentCode :
761850
Title :
Influence of carrier nonuniformity on the phase relationship between frequency and intensity modulation in semiconductor lasers
Author :
Doyle, Owen ; Gallion, Philippe B. ; Debarge, Guy
Author_Institution :
Ecole Nat. Superieure Telecommun., Paris, France
Volume :
24
Issue :
3
fYear :
1988
fDate :
3/1/1988 12:00:00 AM
Firstpage :
516
Lastpage :
522
Abstract :
The modulus and phase of the chirp to modulated power ratio (CPR) was measured for a 1.5- mu m buried-heterostructure laser and a 0.85- mu m channeled-substrate planar (CSP) laser. The results for the phase are inconsistent with previously published expressions including spontaneous emission and spectral hole burning. In particular, the CSP laser exhibits an abrupt phase shift in the CPR. An explanation of this behavior is presented in terms of the influence of a nonuniform carrier density on the phase-amplitude coupling, as expressed by an integral expression for the mode parameter alpha representing the linewidth enhancement factor. Using a simple model for lateral behavior which analytically incorporates diffusion and a nonuniform material alpha parameter, qualitative agreement was obtained with the CSO data. The authors demonstrate the importance of the lateral laser structure on the phase-amplitude coupling in index-guided semiconductor lasers, and the usefulness of CPR phase measurements for laser characterization.<>
Keywords :
laser modes; optical modulation; semiconductor junction lasers; 0.85 micron; 1.5 micron; CPR; CSP; buried-heterostructure laser; carrier nonuniformity; chirp to modulated power ratio; index-guided semiconductor lasers; integral expression; intensity modulation; linewidth enhancement factor; phase-amplitude coupling; semiconductor lasers; spectral hole burning; spontaneous emission; Charge carrier density; Chirp modulation; Laser modes; Optical materials; Phase measurement; Phase modulation; Power lasers; Power measurement; Semiconductor lasers; Spontaneous emission;
fLanguage :
English
Journal_Title :
Quantum Electronics, IEEE Journal of
Publisher :
ieee
ISSN :
0018-9197
Type :
jour
DOI :
10.1109/3.156
Filename :
156
Link To Document :
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