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Coherent properties of a two-level system based on a quantum-dot photodiode

A. Zrenner (), E. Beham, S. Stufler, F. Findeis, M. Bichler and G. Abstreiter
Additional contact information
A. Zrenner: Technische Universität München, Am Coulombwall
E. Beham: Technische Universität München, Am Coulombwall
S. Stufler: Technische Universität München, Am Coulombwall
F. Findeis: Technische Universität München, Am Coulombwall
M. Bichler: Technische Universität München, Am Coulombwall
G. Abstreiter: Technische Universität München, Am Coulombwall

Nature, 2002, vol. 418, issue 6898, 612-614

Abstract: Abstract Present-day information technology is based mainly on incoherent processes in conventional semiconductor devices1. To realize concepts for future quantum information technologies, which are based on coherent phenomena, a new type of ‘hardware’ is required2. Semiconductor quantum dots are promising candidates for the basic device units for quantum information processing. One approach is to exploit optical excitations (excitons) in quantum dots. It has already been demonstrated that coherent manipulation between two excitonic energy levels—via so-called Rabi oscillations—can be achieved in single quantum dots by applying electromagnetic fields3,4,5,6,7. Here we make use of this effect by placing an InGaAs quantum dot in a photodiode, which essentially connects it to an electric circuit. We demonstrate that coherent optical excitations in the quantum-dot two-level system can be converted into deterministic photocurrents. For optical excitation with so-called π-pulses, which completely invert the two-level system, the current is given by I = fe, where f is the repetition frequency of the experiment and e is the elementary charge. We find that this device can function as an optically triggered single-electron turnstile.

Date: 2002
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DOI: 10.1038/nature00912

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