Calculation of near-field scanning optical images of exciton, charged excition and multiexciton wavefunctions in self-assembled InAs/GaAs quantum dots

Abstract

The near-field scanning optical microscopy images of excitonic wavefunctions in self-assembled InAs/GaAs quantum dots are calculated using an empirical pseudopotential method, followed by the configuration interaction (CI) treatment of many-particle effects. We show the wavefunctions of neutral exciton X0 of different polarizations, and compare them to those of the biexciton XX and the charged excitons X+ and X-. We further show that the exciton X(Ph Se) transition which is forbidden in the far-field photoluminescence has comparable intensities to that of X(Sh Se) transition in the near-field photoluminescence .

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