17 February 2011 Two-photon interference using electrically tunable remote quantum dots
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Proceedings Volume 7948, Advances in Photonics of Quantum Computing, Memory, and Communication IV; 79481B (2011); doi: 10.1117/12.874630
Event: SPIE OPTO, 2011, San Francisco, California, United States
Abstract
One of the criteria for the physical implementation of quantum computing is that it must be possible to manipulate individual qubits to prepare them in the same well-defined state. In schemes involving linear optics and single photons from self-assembled quantum dots, this requirement can be intractable as quantum dots form with a distribution of emission energies. We have designed a structure based on InAs quantum dots embedded at the center of an AlGaAs/GaAs/AlGaAs quantum well which facilitates carrier confinement under application of electric fields up to |F| = 500 kVcm -1. This is an order of magnitude greater than previous reports. Through the quantum-confined Stark effect, individual dots can be tuned by up to 25meV, three orders of magnitude greater than their linewidth. This unprecedented tuning range allows many quantum dots to be tuned to the same energy with ease, enabling us to carry out two-photon interference measurements using remote quantum dots. Furthermore, we demonstrate scalability by performing the interference experiment with three pairs of quantum dots. By post-selecting events where two photons arrive simultaneously at a beamsplitter, we find that the interference visibility is limited only by the timing resolution of our system. We also performed measurements as a function of energy detuning which showed that maximum visibility can only be achieved when the dots are degenerate in energy. This opens up the possibility of transferring quantum information between remote solid-state systems.
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Raj B. Patel, Anthony J. Bennett, Ian Farrer, Christine A. Nicoll, David A. Ritchie, Andrew J. Shields, "Two-photon interference using electrically tunable remote quantum dots", Proc. SPIE 7948, Advances in Photonics of Quantum Computing, Memory, and Communication IV, 79481B (17 February 2011); doi: 10.1117/12.874630; https://doi.org/10.1117/12.874630
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KEYWORDS
Quantum dots

Photons

Visibility

Excitons

Quantum communications

Beam splitters

Gallium arsenide

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