G. Ortner scite author profile

Controllable interactions that couple quantum dots are a key requirement in the search for scalable solid state implementations for quantum information technology. From optical studies of excitons and corresponding calculations, we demonstrate that an electric field on vertically coupled pairs of In(0.6)Ga(0.4)As/GaAs quantum dots controls the mixing of the exciton states on the two dots and also provides controllable coupling between carriers in the dots.

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Excitonic Energy Shell Structure of Self-Assembled InGaAs/GaAs Quantum Dots

Raymond

et al. 2004

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Performing optical spectroscopy of highly homogeneous quantum dot arrays in ultrahigh magnetic fields, an unprecedently well resolved Fock-Darwin spectrum is observed. The existence of up to four degenerate electronic shells is demonstrated where the magnetic field lifts the initial degeneracies, which reappear when levels with different angular momenta come into resonance. The resulting level shifting and crossing pattern also show evidence of many-body effects such as the mixing of configurations and exciton condensation at the resonances.

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<title>Entangled exciton states in quantum dot molecules</title>

Bayer¹,

Ortner²,

Larionov

et al. 2002

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G. Ortner

Fine structure of neutral and charged excitons in self-assembled In(Ga)As/(Al)GaAs quantum dots

Control of Vertically CoupledInGaAs/GaAsQuantum Dots with Electric Fields

Excitonic Energy Shell Structure of Self-Assembled InGaAs/GaAs Quantum Dots

<title>Entangled exciton states in quantum dot molecules</title>

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