Title :
A new large-signal dynamic model for multielectrode DFB lasers based on the transfer matrix method
Author :
Davis, M.G. ; O´Dowd, R.F.
Author_Institution :
Optoelectron. Res. Centre, Univ. Coll., Dublin, Ireland
Abstract :
A large-signal dynamic model capable of modeling the transient behavior of the output power and wavelength of multielectrode DFB lasers is described. The key feature of the model is the use of a modified form of the transfer matrix method. Other features are the inclusion of spontaneous emission, longitudinal spatial hole burning, and nonlinear gain in the model. Results from the model demonstrate the important role played by longitudinal spatial hole burning in the chirping of DFB lasers and the limited use of tunability in controlling chirp.<>
Keywords :
distributed feedback lasers; electrodes; laser theory; optical hole burning; semiconductor device models; semiconductor junction lasers; chirping; large-signal dynamic model; laser tuning; laser wavelength modelling; longitudinal spatial hole burning; multielectrode DFB lasers; nonlinear gain; output power; semiconductor laser diodes; spontaneous emission; transfer matrix method; transient behavior; tunability; Chirp modulation; Equations; Laser modes; Optical control; Power generation; Power lasers; Spontaneous emission; Steady-state; Transient response; Writing;
Journal_Title :
Photonics Technology Letters, IEEE
