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Universität Wien   Quantum foundations and quantum information theory
Quantum foundations and quantum information theory - Brukner Group
Quantum foundations and quantum information theory – Brukner Group

Realistic loophole-free Bell test with atom–photon entanglement

Author(s): C. Teo, M. Araújo, M. T. Quintino, J. Minář, D. Cavalcanti, V. Scarani, M. Terra Cunha, M. França Santos

Journal: Nature communications

Volume: 4

Page(s): 2104

Year: 2013

DOI Number: 10.1038/ncomms3104

Link: Link to publication


The establishment of nonlocal correlations, guaranteed through the violation of a Bell inequality, is not only important from a fundamental point of view but constitutes the basis for device-independent quantum information technologies. Although several nonlocality tests have been conducted so far, all of them suffered from either locality or detection loopholes. Among the proposals for overcoming these problems are the use of atom–photon entanglement and hybrid photonic measurements (for example, photodetection and homodyning). Recent studies have suggested that the use of atom–photon entanglement can lead to Bell inequality violations with moderate transmission and detection efficiencies. Here we combine these ideas and propose an experimental setup realizing a simple atom–photon entangled state that can be used to obtain nonlocality when considering realistic experimental parameters including detection efficiencies and losses due to required propagation distances.


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