Photonic quantum networks reveal the nonlocal nature of Bell-local states
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Polino, E
Ghafari, F
Quintino, MT
Laverick, KT
Berkman, IR
Rogge, S
Shalm, LK
Tischler, N
Cavalcanti, EG
Slussarenko, S
Pryde, GJ
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Rotterdam, Netherlands
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Abstract
Bell nonlocality, a fundamental resource for device-independent technologies like quantum key distribution, is highly susceptible to noise. We experimentally demonstrate that single copies of Bell-local states exhibit nonlocality when integrated into a photonic quantum network.
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Proceedings Quantum 2.0 Conference and Exhibition
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DP210101651
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Optical technology
Photonics, optoelectronics and optical communications
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Villegas-Aguilar, L; Polino, E; Ghafari, F; Quintino, MT; Laverick, KT; Berkman, IR; Rogge, S; Shalm, LK; Tischler, N; Cavalcanti, EG; Slussarenko, S; Pryde, GJ, Photonic quantum networks reveal the nonlocal nature of Bell-local states, Quantum 2.0 in Proceedings Quantum 2.0 Conference and Exhibition, 2024, pp. QW2B.2