Electronic Compensation Technique to Mitigate Nonlinear Phase Noise
Resource
JOURNAL OF LIGHTWAVE TECHNOLOGY, VOL. 22, NO. 3, MARCH 2004
Journal
JOURNAL OF LIGHTWAVE TECHNOLOGY
Journal Volume
VOL. 22
Journal Issue
NO. 3
Pages
-
Date Issued
2004-03
Date
2004-03
Author(s)
Ho, Keang-Po
Kahn, Joseph M.
DOI
246246/200611150121568
Abstract
Nonlinear phase noise, often called the Gordon–Mollenauer
effect, can be compensated electronically by subtracting
from the received phase a correction proportional to the received
intensity. The optimal scaling factor is derived analytically and
found to be approximately equal to half of the ratio of mean nonlinear
phase noise and the mean received intensity. Using optimal
compensation, the standard deviation of residual phase noise is
halved, doubling the transmission distance in systems limited by
nonlinear phase noise.
effect, can be compensated electronically by subtracting
from the received phase a correction proportional to the received
intensity. The optimal scaling factor is derived analytically and
found to be approximately equal to half of the ratio of mean nonlinear
phase noise and the mean received intensity. Using optimal
compensation, the standard deviation of residual phase noise is
halved, doubling the transmission distance in systems limited by
nonlinear phase noise.
Subjects
Fiber nonlinearities
phase detection
phase noise
Publisher
Taipei:National Taiwan University Dept Chem Engn
Type
journal article
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