Title :
Study of lasers as nonlinear dynamical systems
Author :
Shahruz, S.M. ; Balarama, U.A.
Author_Institution :
Berkeley Eng. Res. Inst., CA, USA
fDate :
3/1/2002 12:00:00 AM
Abstract :
The rate equations of a large class of lasers are considered. These equations represent the evolution of photon and carrier densities in the laser, where the laser output is proportional to the photon density. By applying techniques from the theory of dynamical systems to the rate equations, four important properties of the lasers are rigorously proved. These properties are: (1) for positive and bounded inputs, the laser outputs are bounded; (2) for positive constant inputs, the laser does not exhibit a limit cycle behavior; (3) for a positive constant input, the laser output settles at a positive steady-state value; (4) for positive constant inputs, the relaxation oscillations in the laser output can be attenuated if the coefficient of the spontaneous emission factor is increased
Keywords :
carrier density; laser stability; laser theory; oscillations; relaxation; spontaneous emission; BIBO stability; bounded laser outputs; bounded-input bounded-output stability; dynamical systems theory; invariant sets; laser carrier densities; laser limit cycle behavior; laser output; laser output positive steady-state value; laser output settling; laser output stability; laser photon densities; laser rate equations; laser relaxation oscillation attenuation; lasers; nonlinear dynamical systems; photon density; positive bounded inputs; positive constant inputs; rate equations; relaxation oscillations; spontaneous emission factor coefficient; Charge carrier density; Fiber lasers; Laser modes; Laser stability; Laser theory; Limit-cycles; Nonlinear dynamical systems; Nonlinear equations; Semiconductor lasers; Spontaneous emission;
Journal_Title :
Circuits and Systems I: Fundamental Theory and Applications, IEEE Transactions on
