Title :
Transient side-mode suppression in gain-coupled DFB lasers
Author :
Chen, Jianyao ; Maciejko, Roman ; Makino, Toshihiko
Author_Institution :
Integrated Opt. Lab., Ecole Polytech., Montreal, Que., Canada
fDate :
1/1/1998 12:00:00 AM
Abstract :
Based on the spatially dependent multimode rate equations, we investigate the transient side-mode suppression in the gain-coupled distributed feedback (DFB) lasers. A simplified but accurate multimode dynamic analysis of gain-coupled DFB lasers is developed. To first order of perturbation approximation, the study includes various spatial effects, such as the distributed complex coupling, the nonuniform carrier distribution, and the nonlinear gain compression. It is found that gain coupling introduces high decay rates and low dynamic differential gains for the side modes, which effectively suppress their transient fluctuation and shorten the rise time of the transient side-mode suppression ratio (SMSR)
Keywords :
approximation theory; distributed feedback lasers; fluctuations; laser modes; laser theory; optical couplers; perturbation theory; semiconductor device models; semiconductor lasers; transients; accurate multimode dynamic analysis; decay rates; distributed complex coupling; gain-coupled DFB lasers; gain-coupled distributed feedback lasers; low dynamic differential gains; nonlinear gain compression; nonuniform carrier distribution; perturbation approximation; rise time; side modes; spatial effects; spatially dependent multimode rate equations; transient fluctuation; transient side-mode suppression; transient side-mode suppression ratio; Distributed feedback devices; Equations; Fiber lasers; Laser feedback; Laser modes; Laser stability; Laser theory; Power system transients; Semiconductor lasers; Transient analysis;
Journal_Title :
Quantum Electronics, IEEE Journal of
