Nonlocality, Entanglement Witnesses and Supra-correlations

Abstract

While entanglement is believed to underlie the power of quantum computation and communication, it is not generally well understood for multipartite systems. Recently, it has been appreciated that there exists proper no-signaling probability distributions derivable from operators that do not represent valid quantum states. Such systems exhibit supra-correlations that are stronger than allowed by quantum mechanics, but less than the algebraically allowed maximum in Bell-inequalities (in the bipartite case). Some of these probability distributions are derivable from an entanglement witness W, which is a non-positive Hermitian operator constructed such that its expectation value with a separable quantum state (positive density matrix) sep is non-negative (so that Tr[W ]< 0 indicates entanglement in quantum state ). In the bipartite case, it is known that by a modification of the local no-signaling measurements by spacelike separated parties A and B, the supra-correlations exhibited by any W can be modeled as derivable from a physically realizable quantum state . However, this result does not generalize to the n-partite case for n>2. Supracorrelations can also be exhibited in 2- and 3-qubit systems by explicitly constructing states O (not necessarily positive quantum states) that exhibit PR correlations for a fixed, but arbitrary number, of measurements available to each party.In this paper we examine the structure of states that exhibit supra-correlations. In addition, we examine the affect uponthe distribution of the correlations amongst the parties involved when constraints of positivity and purity are imposed.We investigate circumstances in which such states do and do not represent valid quantum states.

Document Details

Document Type

Technical Report

Publication Date

Apr 01, 2012

Accession Number

ADA579247

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