Towards scalable quantum information processing with cold atoms and Rydberg blockade

M. Saffman; T. Xia; M. Lichtman; K. Maller; Y. Sun

doi:10.1117/12.2178534

2 June 2015 Towards scalable quantum information processing with cold atoms and Rydberg blockade

M. Saffman, T. Xia, M. Lichtman, K. Maller, Y. Sun

Proceedings Volume 9500, Quantum Information and Computation XIII; 95000J (2015) https://doi.org/10.1117/12.2178534
Event: SPIE Sensing Technology + Applications, 2015, Baltimore, MD, United States

Abstract

We are exploring several different approaches towards scalable quantum computing based on neutral atom qubits with long range Rydberg blockade. Rydberg interactions can be used to entangle single atom qubits, to entangle ensemble qubits, and to establish hybrid entanglement between atomic and other qubits. Using a 2D array of atomic qubits we demonstrate high fidelity single qubit control together with entanglement of nearby qubits. The ratio of qubit coherence time to entangling gate time exceeds 1000.

Citation Download Citation

M. Saffman, T. Xia, M. Lichtman, K. Maller, and Y. Sun "Towards scalable quantum information processing with cold atoms and Rydberg blockade", Proc. SPIE 9500, Quantum Information and Computation XIII, 95000J (2 June 2015); https://doi.org/10.1117/12.2178534

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