DocumentCode
1287658
Title
Wavelength conversion using semiconductor optical amplifiers
Author
Asghari, Mehdi ; White, Ian H. ; Penty, Richard V.
Author_Institution
Dept. of Electr. & Electron. Eng., Bristol Univ., UK
Volume
15
Issue
7
fYear
1997
fDate
7/1/1997 12:00:00 AM
Firstpage
1181
Lastpage
1190
Abstract
This paper reports a detailed theoretical study of the dynamics of wavelength conversion using cross-gain and cross-phase modulation in semiconductor optical amplifiers (SOA´s) involving a large signal, multisection rate equation model. Using this model, recently reported experimental results have been correctly predicted and the effects of electrical and optical pumping on the conversion speed, modulation index, and phase variation of the converted signal have been considered. The model predicts, in agreement with experimental data, that recovery rates as low as 12 ps are possible if signal and pump powers in excess of 14 dBm are used. It also indicates that conversion speeds up to 40 Gb/s may be achieved with less than 3 dB dynamic penalty. The employment of cross-phase modulation increases the speed allowing, for example, an improvement to 60 Gb/s with an excess loss penalty less than 1 dB
Keywords
optical frequency conversion; optical modulation; optical pumping; phase modulation; semiconductor device models; semiconductor lasers; wavelength division multiplexing; conversion speed; converted signal phase variation; cross-gain modulation; cross-phase modulation; dynamic penalty; electrical pumping; excess loss penalty; large signal multisection rate equation model; modulation index; optical pumping; recovery rates; semiconductor optical amplifiers; signal wavelength optimization; wavelength conversion dynamics; wavelength division multiplexing; Integrated optics; Nonlinear optics; Optical interferometry; Optical modulation; Optical pumping; Optical saturation; Optical wavelength conversion; Phase shifting interferometry; Semiconductor optical amplifiers; Stimulated emission;
fLanguage
English
Journal_Title
Lightwave Technology, Journal of
Publisher
ieee
ISSN
0733-8724
Type
jour
DOI
10.1109/50.596964
Filename
596964
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