References

  1. Samson Abramsky (2013): Relational databases and Bell's theorem. In: Val Tannen, Limsoon Wong, Leonid Libkin, Wenfei Fan, Wang-Chiew Tan & Michael Fourman: In search of elegance in the theory and practice of computation: Essays dedicated to Peter Buneman, Lecture Notes in Computer Science 8000. Springer Berlin Heidelberg, pp. 13–35, doi:10.1007/978-3-642-41660-6_2. Eprint available at arXiv:1208.6416 [cs.LO].
  2. Samson Abramsky & Adam Brandenburger (2011): The sheaf-theoretic structure of non-locality and contextuality. New Journal of Physics 13(11), pp. 113036, doi:10.1088/1367-2630/13/11/113036. Eprint available at arXiv:1102.0264 [quant-ph].
  3. Samson Abramsky & Carmen Constantin (2014): A classification of multipartite states by degree of non-locality. In: Bob Coecke & Matty Hoban: Proceedings 10th International Workshop on Quantum Physics and Logic, Castelldefels (Barcelona), Spain, 17th to 19th July 2013, Electronic Proceedings in Theoretical Computer Science 171. Open Publishing Association, pp. 10–25, doi:10.4204/EPTCS.171.2.
  4. Samson Abramsky & Lucien Hardy (2012): Logical Bell inequalities. Physical Review A 85(6), pp. 062114, doi:10.1103/PhysRevA.85.062114. Eprint available at arXiv:1203.1352 [quant-ph].
  5. Samson Abramsky, Shane Mansfield & Rui Soares Barbosa (2012): The cohomology of non-locality and contextuality. In: Bart Jacobs, Peter Selinger & Bas Spitters: Proceedings 8th International Workshop on Quantum Physics and Logic, Nijmegen, Netherlands, October 27–29, 2011, Electronic Proceedings in Theoretical Computer Science 95. Open Publishing Association, pp. 1–14, doi:10.4204/EPTCS.95.1. Eprint available at arXiv:1111.3620 [quant-ph].
  6. Jean-Daniel Bancal, Cyril Branciard, Nicolas Brunner, Nicolas Gisin, Sandu Popescu & Christoph Simon (2008): Testing a Bell inequality in multipair scenarios. Physical Review A 78(6), pp. 062110, doi:10.1103/PhysRevA.78.062110. Eprint available at arXiv:0810.0942 [quant-ph].
  7. Jonathan Barrett, Noah Linden, Serge Massar, Stefano Pironio, Sandu Popescu & David Roberts (2005): Nonlocal correlations as an information-theoretic resource. Physical Review A 71(2), pp. 022101, doi:10.1103/PhysRevA.71.022101. Eprint available at arXiv:quant-ph/0404097.
  8. John S. Bell (1964): On the Einstein-Podolsky-Rosen paradox. Physics 1(3), pp. 195–200.
  9. Simon Kochen & Ernst P. Specker (1967): The problem of hidden variables in quantum mechanics. Journal of Mathematics and Mechanics 17(1), pp. 59–87.
  10. Shane Mansfield (2013): The mathematical structure of non-locality and contextuality. DPhil thesis. University of Oxford.
  11. Shane Mansfield & Rui Soares Barbosa (2013): Extendability in the sheaf-theoretic approach: Construction of Bell models from Kochen-Specker models. In: (Pre)Proceedings of 10th Wokshop on Quantum Physics and Logic (QPL X), ICFo Barcelona. Eprint available at arXiv:1402.4827 [quant-ph].
  12. Miguel Navascués, Stefano Pironio & Antonio Acín (2008): A convergent hierarchy of semidefinite programs characterizing the set of quantum correlations. New Journal of Physics 10(7), pp. 073013, doi:10.1088/1367-2630/10/7/073013. Eprint available at arXiv:0803.4290 [quant-ph].
  13. Miguel Navascués & Harald Wunderlich (2009): A glance beyond the quantum model. Proceedings of the Royal Society A 466(2115), pp. 881–890, doi:10.1098/rspa.2009.0453. Eprint available at arXiv:0907.0372 [quant-ph].
  14. Marcin Pawłowski & Časlav Brukner (2009): Monogamy of Bell's inequality violations in nonsignaling theories. Physical Review Letters 102(3), pp. 030403, doi:10.1103/PhysRevLett.102.030403. Eprint available at arXiv:0810.1175 [quant-ph].
  15. Sandu Popescu & Daniel Rohrlich (1994): Quantum nonlocality as an axiom. Foundations of Physics 24(3), pp. 379–385, doi:10.1007/BF02058098.
  16. Ravishankar Ramanathan, Tomasz Paterek, Alastair Kay, Pawel Kurzyński & Dagomir Kaszlikowski (2011): Local realism of macroscopic correlations. Physical Review Letters 107(6), pp. 060405, doi:10.1103/PhysRevLett.107.060405. Eprint available at arXiv:1010.2016 [quant-ph].
  17. Rui Soares Barbosa. Forthcoming DPhil thesis, University of Oxford.
  18. Nikolai N. Vorob'ev (1962): Consistent families of measures and their extensions. Theory of Probability and its Applications (Teoriya Veroyatnostei i ee Primeneniya) 7(2), pp. 147–163 (English: N. Greenleaf, trans.), 153–159 (Russian), doi:10.1137/1107014.
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