Title :
Optimum linear pulse compression of a gain-switched 1.5 μm DFB laser
Author :
Chusseau, L. ; Kazmierski, C.
Author_Institution :
CNET, Lannion, France
Abstract :
We report on pulse compression measurements of a 1.5 μm gain-switched strained multi-quantum well distributed feedback semiconductor laser. Experiments with eight normal dispersion fiber lengths show that the optimum compression may be achieved at a dispersion value about half of the one usually calculated using a gaussian pulseshape model. Pulse compression measurements are well reproduced by a simple model involving rate equations. Effective linewidth enhancement factors, /spl alpha//sub eff/, deduced from this model reveal increasing values with pumping conditions. We show that this nonlinear behaviour is in agreement with an intensity dependence of /spl alpha//sub eff/.
Keywords :
distributed feedback lasers; optical dispersion; optical fibres; optical switches; semiconductor lasers; semiconductor switches; 1.5 mum; DFB laser; dispersion value; effective linewidth enhancement factors; gain-switched; gaussian pulseshape model; intensity dependence; nonlinear behaviour; normal dispersion fiber lengths; optimum compression; optimum linear pulse compression; pulse compression measurements; pumping conditions; rate equations; semiconductor lase; strained multi-quantum well; Distributed feedback devices; Fiber lasers; Gain measurement; Laser feedback; Laser modes; Nonlinear equations; Optical pulse compression; Pulse compression methods; Pulse measurements; Semiconductor lasers;
Journal_Title :
Photonics Technology Letters, IEEE
