Abstract:
The large signal dynamic response of chains of erbium-doped fiber amplifiers (EDFAs) is much faster than that of the individual constituent EDFAs. The small-signal dynami...Show MoreMetadata
Abstract:
The large signal dynamic response of chains of erbium-doped fiber amplifiers (EDFAs) is much faster than that of the individual constituent EDFAs. The small-signal dynamic response of multi-amplifier networks, especially in wavelength-division multiplexing (WDM) applications, is also important, for example, in the design of systems with supervisory channels relying on small amplitude signal or gain modulations. We present a general perturbation theory suitable for an arbitrary number of channels in single EDFAs or systems with cascaded EDFAs. The simulation results agree well with experimental data.
Published in: Proceedings of Optical Fiber Communication Conference (
Date of Conference: 16-21 February 1997
Date Added to IEEE Xplore: 06 August 2002
Print ISBN:1-55752-480-7
Citations are not available for this document.
Cites in Papers - |
Cites in Papers - IEEE (2)
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1.
D. Gorinevsky, G. Farber, "System analysis of power transients in advanced WDM networks", Journal of Lightwave Technology, vol.22, no.10, pp.2245-2255, 2004.
2.
Y. Sun, J.L. Zyskind, A.K. Srivastava, "Average inversion level, modeling, and physics of erbium-doped fiber amplifiers", IEEE Journal of Selected Topics in Quantum Electronics, vol.3, no.4, pp.991-1007, 1997.
Cites in Papers - Other Publishers (1)
1.
H.S. Chung, J. Han, S.H. Chang, K. Kim, "A Raman plus linear optical amplifier as an inline amplifier in a long-haul transmission of 16 channels×10 Gbit/s over single-mode fiber of 1040 km", Optics Communications, vol.244, no.1-6, pp.141, 2005.
