Abstract
A theoretical investigation of short time delay quantum dot semiconductor lasers with positive and negative optoelectronic feedback strengths is presented. A time delay equal to 20 - 23 ps with an interval time of 0.1 ps was used. Behavioral dynamics of photon density changes with increments of 0.1 ps in the time delay and matching of photon density for all values of positive and negative optoelectronics feedback strength were studied. The results of the photon density studies are expected to be very useful for application to optoelectronic feedback for quantum dot semiconductor lasers.
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