All two-party facet Bell inequalities are violated by Almost Quantum correlations

• URL: http://arxiv.org/abs/2004.07673v1
• Date: Thu, 16 Apr 2020 14:15:38 GMT
• Title: All two-party facet Bell inequalities are violated by Almost Quantum correlations
• Authors: Ravishankar Ramanathan
• Abstract summary: We show that every tight Bell inequality is violated by 'Almost Quantum' correlations. We exploit connections between Bell correlations and the graph-theoretic Lov'asz-theta set, discovered by Cabello-Severini-Winter. We derive novel (almost) quantum Bell inequalities, which may be of independent interest for self-testing applications.
• Score: 0.13844779265721088
• License: http://arxiv.org/licenses/nonexclusive-distrib/1.0/
• Abstract: The characterization of the set of quantum correlations is a problem of fundamental importance in quantum information. The question whether every proper (tight) Bell inequality is violated in Quantum theory is an intriguing one in this regard. Here, we make significant progress in answering this question, by showing that every tight Bell inequality is violated by 'Almost Quantum' correlations, a semi-definite programming relaxation of the set of quantum correlations. As a consequence, we show that many (classes of) Bell inequalities including two-party correlation Bell inequalities and multi-outcome non-local computation games, that do not admit quantum violations, are not facets of the classical Bell polytope. To do this, we make use of the intriguing connections between Bell correlations and the graph-theoretic Lov\'{a}sz-theta set, discovered by Cabello-Severini-Winter (CSW). We also exploit connections between the cut polytope of graph theory and the classical correlation Bell polytope, to show that correlation Bell inequalities that define facets of the lower dimensional correlation polytope are violated in quantum theory. The methods also enable us to derive novel (almost) quantum Bell inequalities, which may be of independent interest for self-testing applications.

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