Title :
Compensation of Raman scattering and EDFA´s nonuniform gain in ultra-long-distance WDM links
Author :
Zou, X.Y. ; Hwang, S.-M. ; Willner, A.E.
Author_Institution :
Dept. of Electr. Eng. Syst., Univ. of Southern California, Los Angeles, CA, USA
Abstract :
Two physical mechanism effects which cause nonuniform spectral gain in a long-distance WDM system are Raman scattering and EDFA´s, with the Raman gain increasing with wavelength and the EDFA gain profile in a cascaded-amplifier system having a peak at 1560 nm. Both effects limit system capacity by causing a wide variation in signal powers and SNR among several WDM channels. We analyze the scenario in which these two deleterious effects partially compensate each other so that a more uniform overall spectral gain can be achieved. By adjusting the link-loss between amplifiers and by strategically placing six WDM channels between 1560 and 1563 nm, the SNR differential among these channels is reduced from 10 dB to 0.5 dB for a 10 000 km link, thereby significantly enhancing the system performance.
Keywords :
Raman spectra; compensation; erbium; fibre lasers; optical fibre communication; optical fibre losses; optical noise; wavelength division multiplexing; 10000 km; 1560 nm; EDFA gain profile; EDFA nonuniform gain; Raman scattering compensation; WDM channels; cascaded-amplifier; deleterious effects; link-loss; nonuniform spectral gain; partially compensate; physical mechanism effects; signal powers; system capacity; system performance; ultra-long-distance WDM links; uniform overall spectral gain; Differential amplifiers; Erbium-doped fiber amplifier; Fiber nonlinear optics; Optical amplifiers; Optical attenuators; Optical control; Raman scattering; Stimulated emission; System performance; Wavelength division multiplexing;
Journal_Title :
Photonics Technology Letters, IEEE
