Phase-Tuned Entangled State Generation Between Distant Spin Qubits

Robert Stockill; Megan Stanley; Lukas Huthmacher; Claire Le Gall; Aaron Miller; Edmund Clarke; Maxime Hugues; Clemens Matthiesen; Mete Atatüre

2017 European Conference on Lasers and Electro-Optics and European Quantum Electronics Conference
(Optica Publishing Group, 2017),
paper EB_1_3

Phase-Tuned Entangled State Generation Between Distant Spin Qubits

Robert Stockill, Megan Stanley, Lukas Huthmacher, Claire Le Gall, Aaron Miller, Edmund Clarke, Maxime Hugues, Clemens Matthiesen, and Mete Atatüre

European Quantum Electronics Conference 2017

Munich Germany
25–29 June 2017
ISBN: 978-1-5090-6736-7

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Quantum Networks (EB_1)

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R. Stockill, M. Stanley, L. Huthmacher, C. Le Gall, A. Miller, E. Clarke, M. Hugues, C. Matthiesen, and M. Atatüre, "Phase-Tuned Entangled State Generation Between Distant Spin Qubits," in 2017 European Conference on Lasers and Electro-Optics and European Quantum Electronics Conference, (Optica Publishing Group, 2017), paper EB_1_3.

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Abstract

Entanglement between distant nodes is essential for the successful realisation of a distributed quantum network. Photon-mediated entanglement has recently been demonstrated in atomic [1] and diamond defect systems [2] and, very recently, using heavy hole spins in quantum dots [3]. However, until now controlled creation of entangled states with arbitrary phase had yet to be demonstrated in these systems. Here we demonstrate the high frequency creation of Bell states with arbitrary phase using electron-spin qubits confined to distant self-assembled InGaAs quantum dots (QD).

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