Title :
Error probability of DPSK signals with cross-phase modulation induced nonlinear phase noise
Author_Institution :
Dept. of Electr. Eng., Nat. Taiwan Univ., Taipei, Taiwan
Abstract :
The error probability is derived analytically for differential phase-shift keying (DPSK) signals contaminated by both self- and cross-phase modulation (SPM and XPM)-induced nonlinear phase noise. XPM-induced nonlinear phase noise is modeled as Gaussian distributed phase noise. When fiber dispersion is compensated perfectly in each fiber span, XPM-induced nonlinear phase is summed coherently span after span and is the dominant nonlinear phase noise for typical wavelength-division-multiplexed (WDM) DPSK systems. For systems without or with XPM-suppressed dispersion compensation, SPM-induced nonlinear phase noise is usually the dominant nonlinear phase noise. With longer walkoff length, for the same mean nonlinear phase shift, 10-Gb/s systems are more sensitive to XPM-induced nonlinear phase noise than 40-Gb/s systems.
Keywords :
Gaussian noise; differential phase shift keying; error statistics; optical Kerr effect; optical fibre communication; optical noise; phase noise; self-phase modulation; wavelength division multiplexing; DPSK signals; Gaussian distributed phase noise; XPM-induced nonlinear phase; compensation; cross-phase modulation; cross-phase modulation induced nonlinear phase noise; differential phase-shift keying signals; error probability; fiber Kerr effect; fiber dispersion; optical amplifier noises; self-phase modulation; wavelength-division-multiplexed DPSK systems; Differential phase shift keying; Differential quadrature phase shift keying; Error probability; Fiber nonlinear optics; Optical noise; Phase modulation; Phase noise; Power system modeling; Scanning probe microscopy; Wavelength division multiplexing; Cross-phase modulation; DPSK; differential phase-shift keying; fiber nonlinearities; nonlinear phase noise; phase modulation;
Journal_Title :
Selected Topics in Quantum Electronics, IEEE Journal of
DOI :
10.1109/JSTQE.2004.826574
