Abstract
We report a study of the coherent nonlinear optical response of individual excitons localized in GaAs quantum dots. Our data show that the nonlinear response is comprised of an incoherent contribution dominated by saturation of the oscillator strength and a coherent contribution giving rise to population pulsations. The results compare well with present theory and show the similarities with atoms and quantum dots in their coherent optical interaction with light. The measured energy relaxation and dephasing rates are comparable, reflecting the absence of significant pure dephasing at low temperatures. In addition, we use nonlinear spectroscopy to investigate quantum dot coupling showing the presence of an incoherent coupling leading to fast energy relaxation. The polarization properties as well as the fine structure splitting are also discussed.
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