Title :
Performance limits of first-order PMD compensators using fixed and variable DGD elements
Author :
Yu, Q. ; Willner, A.E.
Author_Institution :
Dept. of Electr. Eng., Univ. of Southern California, Los Angeles, CA, USA
fDate :
3/1/2002 12:00:00 AM
Abstract :
In this letter, we analyze optical polarization-mode dispersion compensators using a single differential-group-delay (DGD) element that is either fixed or variable. We evaluate the upper-bound performance limits, and quantify the compensator performance under dynamic operations. We show that the variable-delay compensator can reduce the risk of feedback loops trapping a locally optimized state. Moreover, the variable-delay approach provides superior performance as compared to a fixed-delay compensator by increasing the optimal system tolerance for a 10-Gb/s nonreturn-to-zero signal from 28 to 33 ps of average link DGD.
Keywords :
compensation; optical communication equipment; optical feedback; optical fibre dispersion; optical fibre networks; optical fibre polarisation; 10 Gbit/s; Q-factor penalty; dynamic operations; feedback loops; first-order compensators; fixed differential-group-delay element; nonreturn-to-zero signal; optical fiber communication; optical fiber dispersion; optical polarization; optimal system tolerance; performance limits; polarization-mode dispersion compensators; single differential-group-delay element; stochastic processes; upper-bound limits; variable differential-group-delay element; variable-delay compensator; Feedback loop; Numerical models; Optical feedback; Optical fiber communication; Optical fiber dispersion; Optical fiber polarization; Optical transmitters; Optical variables control; Optimal control; Polarization mode dispersion;
Journal_Title :
Photonics Technology Letters, IEEE
