Christandl, Matthias (2006). The Structure of Bipartite Quantum States – Insights from Group Theory and Cryptography (PhD thesis). University of Cambridge. pp. vi, iv. arXiv:quant-ph/0604183. Bibcode:2006PhDT.......289C.
In the literature "non-locality" is sometimes used to characterize concepts that differ from the non-existence of a local hidden variable model, e.g., whether states can be distinguished by local measurements and which can occur also for non-entangled states; see, e.g., Bennett, Charles H.; DiVincenzo, David P.; Fuchs, Christopher A.; Mor, Tal; Rains, Eric; Shor, Peter W.; Smolin, John A.; Wootters, William K. (1999). "Quantum nonlocality without entanglement". Phys. Rev. A. 59 (2): 1070–1091. arXiv:quant-ph/9804053. Bibcode:1999PhRvA..59.1070B. doi:10.1103/PhysRevA.59.1070. S2CID15282650. This non-standard use of the term is not discussed here.
Franchini, F.; Its, A. R.; Korepin, V. E.; Takhtajan, L. A. (2010). "Spectrum of the density matrix of a large block of spins of the XY model in one dimension". Quantum Information Processing. 10 (3): 325–341. arXiv:1002.2931. doi:10.1007/s11128-010-0197-7. S2CID6683370.
Pirandola, S.; U. L. Andersen; L. Banchi; M. Berta; D. Bunandar; R. Colbeck; D. Englund; T. Gehring; C. Lupo; C. Ottaviani; J. L. Pereira; M. Razavi; J. Shamsul Shaari; M. Tomamichel; V. C. Usenko; G. Vallone; P. Villoresi; P. Wallden (2020). "Advances in quantum cryptography". Adv. Opt. Photon. 12 (4): 1012–1236. arXiv:1906.01645. Bibcode:2020AdOP...12.1012P. doi:10.1364/AOP.361502. S2CID174799187.
Shadbolt, P. J.; Verde, M. R.; Peruzzo, A.; Politi, A.; Laing, A.; Lobino, M.; Matthews, J. C. F.; Thompson, M. G.; O'Brien, J. L. (2012). "Generating, manipulating and measuring entanglement and mixture with a reconfigurable photonic circuit". Nature Photonics. 6 (1): 45–59. arXiv:1108.3309. Bibcode:2012NaPho...6...45S. doi:10.1038/nphoton.2011.283. S2CID56206588.
CMS Collaboration (6 June 2024). "Observation of quantum entanglement in top quark pair production in proton-proton collisions at $\sqrt{s}$ = 13 TeV". arXiv:2406.03976 [hep-ex].
CMS Collaboration (17 September 2024). "Measurements of polarization and spin correlation and observation of entanglement in top quark pairs using lepton+jets events from proton-proton collisions at $\sqrt{s}$ = 13 TeV". arXiv:2409.11067 [hep-ex].
In the literature "non-locality" is sometimes used to characterize concepts that differ from the non-existence of a local hidden variable model, e.g., whether states can be distinguished by local measurements and which can occur also for non-entangled states; see, e.g., Bennett, Charles H.; DiVincenzo, David P.; Fuchs, Christopher A.; Mor, Tal; Rains, Eric; Shor, Peter W.; Smolin, John A.; Wootters, William K. (1999). "Quantum nonlocality without entanglement". Phys. Rev. A. 59 (2): 1070–1091. arXiv:quant-ph/9804053. Bibcode:1999PhRvA..59.1070B. doi:10.1103/PhysRevA.59.1070. S2CID15282650. This non-standard use of the term is not discussed here.
Franchini, F.; Its, A. R.; Korepin, V. E.; Takhtajan, L. A. (2010). "Spectrum of the density matrix of a large block of spins of the XY model in one dimension". Quantum Information Processing. 10 (3): 325–341. arXiv:1002.2931. doi:10.1007/s11128-010-0197-7. S2CID6683370.
Pirandola, S.; U. L. Andersen; L. Banchi; M. Berta; D. Bunandar; R. Colbeck; D. Englund; T. Gehring; C. Lupo; C. Ottaviani; J. L. Pereira; M. Razavi; J. Shamsul Shaari; M. Tomamichel; V. C. Usenko; G. Vallone; P. Villoresi; P. Wallden (2020). "Advances in quantum cryptography". Adv. Opt. Photon. 12 (4): 1012–1236. arXiv:1906.01645. Bibcode:2020AdOP...12.1012P. doi:10.1364/AOP.361502. S2CID174799187.
Shadbolt, P. J.; Verde, M. R.; Peruzzo, A.; Politi, A.; Laing, A.; Lobino, M.; Matthews, J. C. F.; Thompson, M. G.; O'Brien, J. L. (2012). "Generating, manipulating and measuring entanglement and mixture with a reconfigurable photonic circuit". Nature Photonics. 6 (1): 45–59. arXiv:1108.3309. Bibcode:2012NaPho...6...45S. doi:10.1038/nphoton.2011.283. S2CID56206588.
Christandl, Matthias (2006). The Structure of Bipartite Quantum States – Insights from Group Theory and Cryptography (PhD thesis). University of Cambridge. pp. vi, iv. arXiv:quant-ph/0604183. Bibcode:2006PhDT.......289C.
In the literature "non-locality" is sometimes used to characterize concepts that differ from the non-existence of a local hidden variable model, e.g., whether states can be distinguished by local measurements and which can occur also for non-entangled states; see, e.g., Bennett, Charles H.; DiVincenzo, David P.; Fuchs, Christopher A.; Mor, Tal; Rains, Eric; Shor, Peter W.; Smolin, John A.; Wootters, William K. (1999). "Quantum nonlocality without entanglement". Phys. Rev. A. 59 (2): 1070–1091. arXiv:quant-ph/9804053. Bibcode:1999PhRvA..59.1070B. doi:10.1103/PhysRevA.59.1070. S2CID15282650. This non-standard use of the term is not discussed here.
Yin, Juan; Yu-Huai Li; Sheng-Kai Liao; Meng Yang; Yuan Cao; Liang Zhang; Ji-Gang Ren; Wen-Qi Cai; Wei-Yue Liu; Shuang-Lin Li; Rong Shu; Yong-Mei Huang; Lei Deng; Li Li; Qiang Zhang; Nai-Le Liu; Yu-Ao Chen; Chao-Yang Lu; Xiang-Bin Wang; Feihu Xu; Jian-Yu Wang; Cheng-Zhi Peng; Artur K. Ekert; Jian-Wei Pan (2020). "Entanglement-based secure quantum cryptography over 1,120 kilometres". Nature. 582 (7813): 501–505. Bibcode:2020Natur.582..501Y. doi:10.1038/s41586-020-2401-y. PMID32541968. S2CID219692094.
Pirandola, S.; U. L. Andersen; L. Banchi; M. Berta; D. Bunandar; R. Colbeck; D. Englund; T. Gehring; C. Lupo; C. Ottaviani; J. L. Pereira; M. Razavi; J. Shamsul Shaari; M. Tomamichel; V. C. Usenko; G. Vallone; P. Villoresi; P. Wallden (2020). "Advances in quantum cryptography". Adv. Opt. Photon. 12 (4): 1012–1236. arXiv:1906.01645. Bibcode:2020AdOP...12.1012P. doi:10.1364/AOP.361502. S2CID174799187.
Shadbolt, P. J.; Verde, M. R.; Peruzzo, A.; Politi, A.; Laing, A.; Lobino, M.; Matthews, J. C. F.; Thompson, M. G.; O'Brien, J. L. (2012). "Generating, manipulating and measuring entanglement and mixture with a reconfigurable photonic circuit". Nature Photonics. 6 (1): 45–59. arXiv:1108.3309. Bibcode:2012NaPho...6...45S. doi:10.1038/nphoton.2011.283. S2CID56206588.
Letter from Einstein to Max Born, 3 March 1947; The Born-Einstein Letters; Correspondence between Albert Einstein and Max and Hedwig Born from 1916 to 1955, Walker, New York, 1971. Cited in Hobson, M. P.; et al. (1998). "Quantum Entanglement and Communication Complexity". SIAM J. Comput. 30 (6): 1829–1841. CiteSeerX10.1.1.20.8324.)
In the literature "non-locality" is sometimes used to characterize concepts that differ from the non-existence of a local hidden variable model, e.g., whether states can be distinguished by local measurements and which can occur also for non-entangled states; see, e.g., Bennett, Charles H.; DiVincenzo, David P.; Fuchs, Christopher A.; Mor, Tal; Rains, Eric; Shor, Peter W.; Smolin, John A.; Wootters, William K. (1999). "Quantum nonlocality without entanglement". Phys. Rev. A. 59 (2): 1070–1091. arXiv:quant-ph/9804053. Bibcode:1999PhRvA..59.1070B. doi:10.1103/PhysRevA.59.1070. S2CID15282650. This non-standard use of the term is not discussed here.
Franchini, F.; Its, A. R.; Korepin, V. E.; Takhtajan, L. A. (2010). "Spectrum of the density matrix of a large block of spins of the XY model in one dimension". Quantum Information Processing. 10 (3): 325–341. arXiv:1002.2931. doi:10.1007/s11128-010-0197-7. S2CID6683370.
Pirandola, S.; U. L. Andersen; L. Banchi; M. Berta; D. Bunandar; R. Colbeck; D. Englund; T. Gehring; C. Lupo; C. Ottaviani; J. L. Pereira; M. Razavi; J. Shamsul Shaari; M. Tomamichel; V. C. Usenko; G. Vallone; P. Villoresi; P. Wallden (2020). "Advances in quantum cryptography". Adv. Opt. Photon. 12 (4): 1012–1236. arXiv:1906.01645. Bibcode:2020AdOP...12.1012P. doi:10.1364/AOP.361502. S2CID174799187.
Shadbolt, P. J.; Verde, M. R.; Peruzzo, A.; Politi, A.; Laing, A.; Lobino, M.; Matthews, J. C. F.; Thompson, M. G.; O'Brien, J. L. (2012). "Generating, manipulating and measuring entanglement and mixture with a reconfigurable photonic circuit". Nature Photonics. 6 (1): 45–59. arXiv:1108.3309. Bibcode:2012NaPho...6...45S. doi:10.1038/nphoton.2011.283. S2CID56206588.
Physicist John Bell depicts the Einstein camp in this debate in his article entitled "Bertlmann's socks and the nature of reality", p. 143 of Speakable and unspeakable in quantum mechanics: "For EPR that would be an unthinkable 'spooky action at a distance'. To avoid such action at a distance they have to attribute, to the space-time regions in question, real properties in advance of observation, correlated properties, which predetermine the outcomes of these particular observations. Since these real properties, fixed in advance of observation, are not contained in quantum formalism, that formalism for EPR is incomplete. It may be correct, as far as it goes, but the usual quantum formalism cannot be the whole story." And again on p. 144 Bell says: "Einstein had no difficulty accepting that affairs in different places could be correlated. What he could not accept was that an intervention at one place could influence, immediately, affairs at the other." Downloaded 5 July 2011 from Bell, J. S. (1987). Speakable and Unspeakable in Quantum Mechanics(PDF). CERN. ISBN0521334950. Archived from the original(PDF) on 12 April 2015. Retrieved 14 June 2014.
Physicist John Bell depicts the Einstein camp in this debate in his article entitled "Bertlmann's socks and the nature of reality", p. 143 of Speakable and unspeakable in quantum mechanics: "For EPR that would be an unthinkable 'spooky action at a distance'. To avoid such action at a distance they have to attribute, to the space-time regions in question, real properties in advance of observation, correlated properties, which predetermine the outcomes of these particular observations. Since these real properties, fixed in advance of observation, are not contained in quantum formalism, that formalism for EPR is incomplete. It may be correct, as far as it goes, but the usual quantum formalism cannot be the whole story." And again on p. 144 Bell says: "Einstein had no difficulty accepting that affairs in different places could be correlated. What he could not accept was that an intervention at one place could influence, immediately, affairs at the other." Downloaded 5 July 2011 from Bell, J. S. (1987). Speakable and Unspeakable in Quantum Mechanics(PDF). CERN. ISBN0521334950. Archived from the original(PDF) on 12 April 2015. Retrieved 14 June 2014.
