Title :
Laser Rate Equation-Based Filtering for Carrier Recovery in Characterization and Communication
Author :
Piels, Molly ; Olmedo, Miguel Iglesias ; Weiqi Xue ; Xiaodan Pang ; Schaffer, Christian ; Schatz, Richard ; Jacobsen, Gunnar ; Monroy, Idelfonso Tafur ; Mork, Jesper ; Popov, Sergei ; Zibar, Darko
Author_Institution :
Dept. of Photonics Eng., Tech. Univ. of Denmark, Lyngby, Denmark
Abstract :
We formulate a semiconductor laser rate equation-based approach to carrier recovery in a Bayesian filtering framework. Filter stability and the effect of model inaccuracies (unknown or unuseable rate equation coefficients) are discussed. Two potential application areas are explored: Laser characterization and carrier recovery in coherent communication. Two rate equation-based Bayesian filters, the particle filter and extended Kalman filter, are used in conjunction with a coherent receiver to measure frequency noise spectrum of a photonic crystal cavity laser with less than 20 nW of fiber-coupled output power. The extended Kalman filter is also used to recover a 28-GBd DP-16 QAM signal where a decision-directed phase-locked loop fails.
Keywords :
Kalman filters; laser cavity resonators; nonlinear filters; optical filters; optical phase locked loops; optical receivers; photonic crystals; quadrature amplitude modulation; semiconductor lasers; Bayesian filtering framework; DP-16 QAM signal; carrier recovery; coherent communication; coherent receiver; decision-directed phase-locked loop; extended Kalman filter; fiber-coupled output power; filter stability; frequency noise spectrum; laser characterization; laser rate equation-based filtering; model inaccuracies; particle filter; photonic crystal cavity laser; semiconductor laser rate equation-based approach; two-rate equation-based Bayesian filters; Kalman filters; Laser modes; Laser noise; Mathematical model; Semiconductor device modeling; Semiconductor lasers; Coherent communication; Phase estimation; coherent communication; diode lasers; optical communication; phase estimation; phase noise; quadrature amplitude modulation; semiconductor lasers;
Journal_Title :
Lightwave Technology, Journal of
DOI :
10.1109/JLT.2015.2430373
