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Nonlinear effects in coherent multichannel transmission through optical fibers

Various nonlinear optical interactions in single-mode fibers that are used in coherent FDM (frequency division multiplexed) transmission systems are examined. It is these nonlinearities that lead to crosstalk between channels, power losses, and deleterious fluctuations, which in turn limit the power...

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Bibliographic Details
Published in:Proceedings of the IEEE 1990-08, Vol.78 (8), p.1344-1368
Main Authors: Waarts, R.G., Friesem, A.A., Lichtman, E., Yaffe, H.H., Braun, R.-P.
Format: Article
Language:English
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Summary:Various nonlinear optical interactions in single-mode fibers that are used in coherent FDM (frequency division multiplexed) transmission systems are examined. It is these nonlinearities that lead to crosstalk between channels, power losses, and deleterious fluctuations, which in turn limit the power of the transmitted light and the number of allowed channels, and dictate the channel allocations. It is shown that, for long-haul transmission systems with fiber lengths exceeding 100 km, typical channel separation of 10 GHz, and few channels, the maximum allowed input power per channel, P/sub max/, is limited by SBS (stimulated Brillouin scattering) to about 5 dBm. As the number of channels increases, FWM (four wave mixing) becomes the limiting process with P/sub max/ of about -5 dBm, whereas above several hundred channels SRS (stimulated Raman scattering) becomes dominant with P/sub max/ of about -5 dBm. For local area networks with shorter lengths, the results are similar, except that the values of P/sub max/ are uniformly higher by about 5 dB.< >
ISSN:0018-9219
1558-2256
DOI:10.1109/5.58321