Bell inequality violation by entangled single photon states generated from a laser, a LED or a Halogen lamp

In single-particle or intraparticle entanglement, two degrees of freedom of a single particle, e.g., momentum and polarization of a single photon, are entangled. Single-particle entanglement (SPE) provides a source of non classical correlations which can be exploited both in quantum communication pr...

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Veröffentlicht in:	arXiv.org 2020-11
Hauptverfasser:	Pasini, M, Leone, N, Mazzucchi, S, Moretti, V, Pastorello, D, Pavesi, L
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Sprache:	eng
Schlagworte:	Bell's inequality Degrees of freedom Entangled states Light beams Light sources Photons Physics - Optics Physics - Quantum Physics Quantum entanglement
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creator	Pasini, M Leone, N Mazzucchi, S Moretti, V Pastorello, D Pavesi, L
description	In single-particle or intraparticle entanglement, two degrees of freedom of a single particle, e.g., momentum and polarization of a single photon, are entangled. Single-particle entanglement (SPE) provides a source of non classical correlations which can be exploited both in quantum communication protocols and in experimental tests of noncontextuality based on the Kochen-Specker theorem. Furthermore, SPE is robust under decoherence phenomena. Here, we show that single-particle entangled states of single photons can be produced from attenuated sources of light, even classical ones. To experimentally certify the entanglement, we perform a Bell test, observing a violation of the Clauser, Horne, Shimony and Holt (CHSH) inequality. On the one hand, we show that this entanglement can be achieved even in a classical light beam, provided that first-order coherence is maintained between the degrees of freedom involved in the entanglement. On the other hand, we prove that filtered and attenuated light sources provide a flux of independent SPE photons that, from a statistical point of view, are indistinguishable from those generated by a single photon source. This has important consequences, since it demonstrates that cheap, compact, and low power entangled photon sources can be used for a range of quantum technology applications.
doi_str_mv	10.48550/arxiv.2003.09961
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Single-particle entanglement (SPE) provides a source of non classical correlations which can be exploited both in quantum communication protocols and in experimental tests of noncontextuality based on the Kochen-Specker theorem. Furthermore, SPE is robust under decoherence phenomena. Here, we show that single-particle entangled states of single photons can be produced from attenuated sources of light, even classical ones. To experimentally certify the entanglement, we perform a Bell test, observing a violation of the Clauser, Horne, Shimony and Holt (CHSH) inequality. On the one hand, we show that this entanglement can be achieved even in a classical light beam, provided that first-order coherence is maintained between the degrees of freedom involved in the entanglement. 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subjects	Bell's inequality Degrees of freedom Entangled states Light beams Light sources Photons Physics - Optics Physics - Quantum Physics Quantum entanglement
title	Bell inequality violation by entangled single photon states generated from a laser, a LED or a Halogen lamp
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