DocumentCode
1133716
Title
Two and three level optical PCM transmitter design for multigigabit systems using a relaxation oscillation technique
Author
Byrne, Donal M. ; O´Dowd, Ronan F.
Author_Institution
University College, Dublin, Ireland
Volume
5
Issue
10
fYear
1987
fDate
10/1/1987 12:00:00 AM
Firstpage
1412
Lastpage
1425
Abstract
A theoretical method based on gain switching of semiconductor lasers is described which optimizes the bandwidth and modulated output power from a given laser for application in optical PCM systems. Both two- and three-level systems are considered. The type of laser used to demonstrate the technique is typical of an AlGaAs BH laser. A three-level optical system based on only two electrical drive levels is evaluated. Numerical results based on the single-mode rate equations, including a diffusion term, predict bit rates of 5 Gbit/s for a two-level system and 8 Gbit/s for the three level system. The technique was also applied to short cavity and quaternary lasers. For a short-cavity (100-μm) laser bit rates of 9 and 14 Gbit/s were predicted for the two- and three-level systems, respectively. For an In-GaAsP etched mesa BH laser bit rates of 10 and 16 Gbit/s were predicted for the two- and three-levels systems, respectively. The bandwidth was found to be limited by the laser parameters and catastrophic mirror damage which limits the maximum allowed drive current.
Keywords
Gallium materials/lasers; Optical modulation/demodulation; Optical transmitters; Pulse-code modulation; Relaxation oscillators; Bandwidth; Bit rate; Laser theory; Optical design; Optical design techniques; Optical modulation; Optical transmitters; Phase change materials; Power lasers; Semiconductor lasers;
fLanguage
English
Journal_Title
Lightwave Technology, Journal of
Publisher
ieee
ISSN
0733-8724
Type
jour
DOI
10.1109/JLT.1987.1075431
Filename
1075431
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