Power-weighted dispersion distribution function for characterizing nonlinear properties of long-haul optical transmission links
- 9 August 2006
- journal article
- Published by Optica Publishing Group in Optics Letters
- Vol. 31 (17) , 2544-2546
- https://doi.org/10.1364/ol.31.002544
Abstract
Based on the first-order perturbation theory, we introduce the power-weighted dispersion distribution (PWDD) function to characterize nonlinear properties of fiber-optic transmission links. This technique offers a new perspective on dispersion management for pseudolinear transmission. A rectangular PWDD model is used to describe the formation of ghost pulses analytically in the time domain without relying on the assumption that the pulse shape is Gaussian.Keywords
This publication has 15 references indexed in Scilit:
- Intrachannel four-wave mixing in highly dispersed return-to-zero differential-phase-shift-keyed transmission with a nonsymmetric dispersion mapOptics Letters, 2006
- Simple criterion for the characterization of nonlinear impairments in dispersion-managed optical transmission systemsIEEE Photonics Technology Letters, 2005
- Analysis of intrachannel four-wave mixing in differential phase-shift keying transmission with large dispersionOptics Letters, 2003
- The channel capacity of a fiber optics communication system: perturbation theoryJournal of Lightwave Technology, 2002
- Cancellation of timing and amplitude jitter in symmetric links using highly dispersed pulsesIEEE Photonics Technology Letters, 2001
- Reduction of intrachannel nonlinear distortion in 40-Gb/s-based WDM transmission over standard fiberIEEE Photonics Technology Letters, 2000
- System impact of intra-channel nonlinear effects in highly dispersed optical pulse transmissionIEEE Photonics Technology Letters, 2000
- Analysis of intrachannel nonlinear effects in highly dispersed optical pulse transmissionIEEE Photonics Technology Letters, 2000
- Multiscale pulse dynamics in communication systems with strong dispersion managementOptics Letters, 1998
- Averaged pulse dynamics in a cascaded transmission system with passive dispersion compensationOptics Letters, 1996