Title :
A theoretical analysis of linewidth broadening in frequency tunable DBR lasers
Author_Institution :
NEC Corp., Kanagawa, Japan
fDate :
9/1/1991 12:00:00 AM
Abstract :
Linewidth broadening in frequency tunable distributed-Bragg-reflector (DBR) lasers with tuning sections is analyzed. The analysis is based on a simplified two-section single-mode cavity model and quantum mechanical Langevin treatment. The origin of linewidth broadening is shown to be low frequency excess FM noise caused by carrier fluctuation in the tuning section. A scaling law, which permits optimal device parameter design, is then derived. When a decrease in the carrier lifetime is combined with an increase in the tuning current, linewidth broadening can be suppressed without frequency tuning range reduction
Keywords :
distributed Bragg reflector lasers; electron device noise; laser tuning; spectral line breadth; carrier fluctuation; carrier lifetime; frequency tunable distributed Bragg reflector lasers; linewidth broadening; low frequency excess FM noise; optimal device parameter design; quantum mechanical Langevin treatment; scaling law; simplified two-section single-mode cavity model; tuning current; tuning sections; Distributed Bragg reflectors; Fluctuations; Frequency; Laser modes; Laser noise; Laser theory; Laser tuning; Low-frequency noise; Quantum mechanics; Tunable circuits and devices;
Journal_Title :
Quantum Electronics, IEEE Journal of
