Title :
Extraction of gain parameters for truncated-well gain-coupled DFB lasers
Author :
Morrison, Gordon B. ; Adams, David M. ; Cassidy, Daniel T.
Author_Institution :
Dept. of Eng. Phys., McMaster Univ., Hamilton, Ont., Canada
Abstract :
An amplified spontaneous emission transfer matrix model for prediction of the subthreshold spectral output of distributed-feedback (DFB) lasers was developed and fitted to the spectra of truncated-well gain-coupled DFB lasers using a least-squares-fitting algorithm. Modal gains for the high- and low-gain segments of the truncated-well DFB lasers were extracted, and their evolution as a function of injection current was examined. Results explain the tendency for the truncated-well gain coupled DFB lasers to have higher yields of single-frequency lasers and larger sidemode suppression ratios than are expected from simple considerations.
Keywords :
distributed feedback lasers; laser frequency stability; laser theory; matrix algebra; quantum well lasers; semiconductor device models; amplified spontaneous emission transfer matrix model; gain parameters; high-gain segments; injection current; least-squares-fitting algorithm; low-gain segments; modal gains; sidemode suppression ratios; single-frequency lasers; subthreshold spectral output; truncated-well DFB lasers; truncated-well gain coupled DFB lasers; truncated-well gain-coupled DFB lasers; Bragg gratings; Data mining; Distributed feedback devices; Etching; Laser feedback; Laser modes; Optical coupling; Phase estimation; Quantum well lasers; Spontaneous emission;
Journal_Title :
Photonics Technology Letters, IEEE
