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Control of differential gain, nonlinear gain, and damping factor for high-speed application of GaAs-based MQW lasers.

Kontrolle von differentiellem Gewinn, nichtlinearem Gewinn und Dämpfungsfaktor für Hochgeschwindigkeitsanwendungen von GaAs-basierenden MQW-Lasern
 

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IEEE Journal of Quantum Electronics 29 (1993), Nr.6, S.1648-1659
ISSN: 0018-9197
Englisch
Zeitschriftenaufsatz
Fraunhofer IAF ()
Dämpfungsfaktor; damping factor; differential gain; differentieller Gewinn; GaAs; high-speed optoelectronic; Hochgeschwindigkeitsoptoelektronik; MBE; nichtlinearer Gewinn; nonlinear gain; p-doping; p-Dotierung

Abstract
Utilizing small-signal direct modulation and relative intensity noise measurements, we investigate changes in the modulation response, the differential gain Deltag/Deltan, the nonlinear gain coefficient e, and the damping factor K, which result from the following three structural modifications to GaAs-based multiple quantum well lasers: 1) the addition of strain in the quantum wells; 2) an increase in the number of quantum wells, and 3) the addition of p-doping in the quantum wells. These modifications are assessed in terms of their potential for reducing the drive current required to achieve a given modulation bandwidth, for increasing the maximum intrinsic modulation bandwidth of the laser, and for improving the prospects for monolithic laser/transistor integration. The differential gain is increased both by replacing unstrained GaAs-Al0.25Ga0.75As QW's with strained In0.35Ga0.65As-GaAs QW's and by increasing the number of strained QW's, ultimately leading to substantial improvements in modulation bandwidth at a given drive current. However, in both cases, the increased differential gain is offset by corresonding increases in the nonlinear gain coefficient, leading to relatively constant values of K and hence little variation in the maximum intrinsic modulation bandwith. By further adding p-doping to the In0.35Ga0.65As-GaAs MQW active region, we have been able to simultaneously increase Deltag/Deltan and decrease K, yielding very efficient high-speed modulation (20 GHz at a dc bias current of 50 mA) and the first semiconductor lasers to achieve a direct modulation bandwidth of 30 GHz under dc bias (heat-sink temperature is equal 25 degree C). Since our laser structures show no significant carrier transport limitations, the measured K factor for the p-doped devices implies a maximum intrinsic 3 dB modulation bandwidth of 63 GHz.

: http://publica.fraunhofer.de/dokumente/PX-8627.html