2012
DOI: 10.1103/physrevlett.108.030402
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State-Independent Proof of Kochen-Specker Theorem with 13 Rays

Abstract: Quantum contextuality, as proved by Kochen and Specker, and also by Bell, should manifest itself in any state in any system with more than two distinguishable states and recently has been experimentally verified on various physical systems. However for the simplest system capable of exhibiting contextuality, a qutrit, the quantum contextuality is verified only state-dependently in experiment because too many (at least 31) observables are involved in all the known state-independent tests. Here we report an expe… Show more

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Cited by 204 publications
(333 citation statements)
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“…Yet, they entitle their paper "State-Independent Proof of Kochen-Specker Theorem with 13 Rays" and on p. 3 they claim to have nevertheless "proved the original KS theorem" [67]. How come, when the Lemma XII.1 proves the contrary?…”
Section: -Dim Ks Setsmentioning
confidence: 99%
See 2 more Smart Citations
“…Yet, they entitle their paper "State-Independent Proof of Kochen-Specker Theorem with 13 Rays" and on p. 3 they claim to have nevertheless "proved the original KS theorem" [67]. How come, when the Lemma XII.1 proves the contrary?…”
Section: -Dim Ks Setsmentioning
confidence: 99%
“…In 2012, Yu and Oh published a paper [67] in which they introduced a set with 13 vertices which they call a 13-ray set-13-vertex set in our notation. The set is displayed in Fig.…”
Section: -Dim Ks Setsmentioning
confidence: 99%
See 1 more Smart Citation
“…The rays form a set to test contextualtiy in a state-independent way. Later on Peres reported a 33-ray proof [2], Conway and Kochen reported a 31-ray proof [3], followed by Yu and Oh [4] who reduced the required number of observables to a recordbreaking 13 rays and gave the state-independent proof of the KS theorem. In three dimensions, it has been proven that 13 is the minimal number of observables by Cabello [5].…”
Section: Introductionmentioning
confidence: 99%
“…This third approach is based on two observations: on one hand, that quantum contextual correlations, i.e., quantum correlations for compatible (but not necessarily spacelike compatible) measurements provide a natural generalization of quantum nonlocal correlations that leaves room for a wider range of experimental scenarios, including systems that cannot be separated into parts or represented as tensor product of smaller spaces [18,[24][25][26][27][28] and for systems prepared in arbitrary quantum states [19,[25][26][27][29][30][31][32]. The second observation comes from the graph approach to quantum correlations introduced in Ref.…”
mentioning
confidence: 99%