System outage probability due to first- and second-order PMD
- 1 May 1998
- journal article
- Published by Institute of Electrical and Electronics Engineers (IEEE) in IEEE Photonics Technology Letters
- Vol. 10 (5) , 696-698
- https://doi.org/10.1109/68.669330
Abstract
A theoretical approach is proposed that allows one to quantify the impact of fiber polarization mode dispersion (PMD) on optical binary transmission taking into account not only first-order polarization mode dispersion, but also signal distortion induced by second-order PMD. Using this approach the impact of the spectral signal width on PMD-induced system outage probability could be studied for the first time. An analysis of 10-Gb/s transmission exhibits that, as long as the mean PMD remains below the commonly accepted limit (about 10 ps) for negligible outage, a linear chirp of up to 30 GHz does not lead to an additional increase of the system outage. This result confirms that low bandwidth modulation schemes (external modulator, low chirp laser) do not suffer from additional outage degradation due to second-order PMD.Keywords
This publication has 8 references indexed in Scilit:
- Impact of the statistics of second-order polarization-mode dispersion on system performancePublished by Institute of Electrical and Electronics Engineers (IEEE) ,2002
- Comparison of resistance to polarisation mode dispersionof NRZ and phase-shaped binary transmission formats at 10 Gbit/sElectronics Letters, 1997
- Impact of First- and Second-Order PMD in Optical Digital Transmission SystemsOptical Fiber Technology, 1996
- PMD pulse deformationElectronics Letters, 1995
- Operation of digital optical transmission systemwith minimal degradation due topolarisation mode dispersionElectronics Letters, 1995
- Polarization-mode dispersion measurements based on transmission spectra through a polarizerJournal of Lightwave Technology, 1994
- Statistical theory of polarization dispersion in single mode fibersJournal of Lightwave Technology, 1991
- Polarization-dependent pulse compression and broadening due to polarization dispersion in dispersion-shifted fiberOptics Letters, 1988