English

Multigraph approach to quantum non-locality

Quantum Physics 2014-10-10 v2

Abstract

Non-contextuality (NC) and Bell inequalities can be expressed as bounds Ω\Omega for positive linear combinations SS of probabilities of events, SΩS \leq \Omega. Exclusive events in SS can be represented as adjacent vertices of a graph called the exclusivity graph of SS. In the case that events correspond to the outcomes of quantum projective measurements, quantum probabilities are intimately related to the Gr\"otschel-Lov\'asz-Schrijver theta body of the exclusivity graph. Then, one can easily compute an upper bound to the maximum quantum violation of any NC or Bell inequality by optimizing SS over the theta body and calculating the Lov\'asz number of the corresponding exclusivity graph. In some cases, this upper bound is tight and gives the exact maximum quantum violation. However, in general, this is not the case. The reason is that the exclusivity graph does not distinguish among the different ways exclusivity can occur in Bell-inequality (and similar) scenarios. An interesting question is whether there is a graph-theoretical concept which accounts for this problem. Here we show that, for any given NN-partite Bell inequality, an edge-coloured multigraph composed of NN single-colour graphs can be used to encode the relationships of exclusivity between each party's parts of the events. Then, the maximum quantum violation of the Bell inequality is exactly given by a refinement of the Lov\'asz number that applies to these edge-coloured multigraphs. We show how to calculate upper bounds for this number using a hierarchy of semi-definite programs and calculate upper bounds for I3I_3, I3322I_{3322} and the three bipartite Bell inequalities whose exclusivity graph is a pentagon. The multigraph-theoretical approach introduced here may remove some obstacles in the program of explaining quantum correlations from first principles.

Keywords

Cite

@article{arxiv.1407.5340,
  title  = {Multigraph approach to quantum non-locality},
  author = {Rafael Rabelo and Cristhiano Duarte and Antonio J. Lopez-Tarrida and Marcelo Terra Cunha and Adan Cabello},
  journal= {arXiv preprint arXiv:1407.5340},
  year   = {2014}
}

Comments

21 pages, 5 figures

R2 v1 2026-06-22T05:08:30.146Z