Title :
Degree of polarization degradation due to cross-phase modulation and its impact on polarization-mode dispersion compensators
Author :
Bononi, Alberto ; Vannucci, Armando ; Orlandini, A. ; Corbel, E. ; Lanne, S. ; Bigo, S.
Author_Institution :
Dipt. di Ingegneria dell´´Informazione, Univ. degli Studi di Parma, Italy
Abstract :
A novel analytical model is proposed to predict the cross-phase modulation (XPM)-induced depolarization in a two-channel transmission system, in which the Stokes´ vector of each channel rotates around a space-invariant pivot by a time-varying angle which depends on the total instantaneous optical power in the fiber, on the angle between pump and probe input Stokes´ vectors, and on the walk-off between channels. The model leads to a simple formula of the probe degree of polarization (DOP) which is validated both by simulation and experiment. The model helps identify the key physical factors that determine the XPM-induced performance degradation of DOP-based first-order polarization-mode dispersion compensators, and experiments that quantify such degradation are presented.
Keywords :
compensation; optical fibre communication; optical fibre polarisation; optical modulation; optical pumping; phase modulation; telecommunication channels; wavelength division multiplexing; Stokes; WDM; cross-phase modulation; cross-phase modulation induced depolarization; performance degradation; physical factors; polarization degradation; polarization-mode dispersion compensators; probe degree of polarization; probe input Stokes´ vectors; pump input Stokes´ vectors; space-invariant pivot; time-varying angle; total instantaneous optical power; wavelength-division-multiplexed system; Analytical models; Degradation; Fiber nonlinear optics; Optical fiber polarization; Optical modulation; Optical pumping; Polarization mode dispersion; Power system modeling; Probes; Time varying systems;
Journal_Title :
Lightwave Technology, Journal of
DOI :
10.1109/JLT.2003.815513
