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Statistics of signal-to-noise ratio and path-accumulated power due to concatenation of polarization-dependent loss

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4 Author(s)
M. Yu ; Innovance Networks Inc., Piscataway, NJ, USA ; C. Kan ; M. Lewis ; A. Sizmann

The authors present analytical expressions for the signal and noise statistics due to the concatenation of a large number of low-polarization-dependent loss elements. By solving the governing stochastic differential equations, using perturbation methods for the cases with and without power stabilization, they obtain important bounds on signal-to-noise ratio fluctuations and other quantities for the design of agile long-haul fiber communication systems.

Published in:

IEEE Photonics Technology Letters  (Volume:14 ,  Issue: 10 )