Title :
Nonlinear dynamics in directly modulated multiple-quantum-well laser diodes
Author :
Bennett, Stephen ; Snowden, Christopher M. ; Iezekiel, Stavros
fDate :
11/1/1997 12:00:00 AM
Abstract :
A theoretical and experimental analysis of the nonlinear dynamics of Fabry-Perot (FP) and distributed feedback (DFB) multiple-quantum-well (MQW) laser diodes is presented. The analysis is performed under single-tone and two-tone direct modulation. In the FP laser, we observe period doubling and in the DFB laser both period doubling and period tripling are identified. Period doubling is found over a wide range of modulation frequencies in both lasers. The reason for this wide modulation frequency range is attributed to the large relaxation frequencies found in MQW laser diodes. The spontaneous emission factor is measured for both FP and DFB lasers. The dependencies of period doubling on output power and RF input power level are also analyzed. The nonlinear dynamics of the laser are found to be enhanced when modulated under two-tone modulation. Numerical simulations carried out show good agreement with the measured results
Keywords :
Fabry-Perot resonators; distributed feedback lasers; laser theory; nonlinear dynamical systems; optical chaos; optical modulation; quantum well lasers; spontaneous emission; DFB MQW LD; Fabry-Perot MQW LD; InGaAsP-InGaAs; RF input power level; chaos; directly modulated multiple-quantum-well laser diodes; large relaxation frequencies; modulation frequencies; nonlinear dynamics; numerical simulations; output power; period doubling; period tripling; single-tone direct modulation; spontaneous emission factor; two-tone direct modulation; wide modulation frequency range; Diode lasers; Distributed feedback devices; Fabry-Perot; Frequency modulation; Laser feedback; Laser theory; Performance analysis; Power generation; Quantum well devices; Spontaneous emission;
Journal_Title :
Quantum Electronics, IEEE Journal of
