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Cavity-enhanced simultaneous dressing of quantum dot exciton and biexciton states

We demonstrate the simultaneous dressing of both vacuum-to-exciton and exciton-to-biexciton transitions of a single semiconductor quantum dot in a high-Q micropillar cavity, using photoluminescence spectroscopy. Resonant two-photon excitation of the biexciton is achieved by spectrally tuning the quantum dot emission with respect to the cavity mode. The cavity couples to both transitions and amplifies the Rabi-frequency of the likewise resonant cw laser, driving the transitions. We observe strong-field splitting of the emission lines, which depend on the driving Rabi field amplitude and the cavity-laser detuning. A dressed state theory of a driven 4-level atom correctly predicts the distinct spectral transitions observed in the emission spectrum, and a detailed description of the emission spectra is further provided through a polaron master equation approach which accounts for cavity coupling and acoustic phonon interactions of the semiconductor medium.

preprint2015arXivOpen access
Fabian HargartMarkus MüllerKaushik Roy-ChoudhurySimone Luca PortalupiChristian SchneiderSven HöflingMartin KampStephen HughesPeter Michler
cond-mat.mes-hallquant-ph
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Open access9 authors2 topics
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Fabian HargartMarkus MüllerKaushik Roy-ChoudhurySimone Luca PortalupiChristian SchneiderSven HöflingMartin KampStephen HughesPeter Michler

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