Title :
Lumped circuit model for prediction of linewidth in Fabry Perot and DFB lasers, including external cavity devices
Author :
Probert, P.J. ; Carroll, J.E.
Author_Institution :
Dept. of Eng., Cambridge Univ., UK
Abstract :
Describes a simple circuit model for semiconductor lasers in single mode operation. This model is based on theorems well established in the microwave field, and applicable to any resonant system. A particular advantage is that, through the relationship between reflection coefficient and admittance, the same circuit, consisting only of a single LCR resonance, can be used in a totally general way for DFB and Fabry Perot structures. In addition the shape of the spectra can be examined using Fourier techniques. Results are presented for Fabry Perot lasers which show excellent agreement with established theory. DFB lasers, both uniform devices and those with a non-corrugated phase shift section, are then examined. A general method for a phase slip DFB laser with an external cavity is presented and results shown for simple cases.<>
Keywords :
circuit resonance; circuit theory; distributed feedback lasers; laser theory; lumped parameter networks; semiconductor junction lasers; DFB lasers; Fabry Perot structures; Fourier techniques; LCR resonance; admittance; lumped circuit model; reflection coefficient; semiconductor lasers; Circuits; Distributed feedback lasers; Linear circuits; Semiconductor lasers;
Journal_Title :
Optoelectronics, IEE Proceedings J
