Abstract
The aim of this paper is to distinguish classical correlations from quantum ones. First, a new characterization of a classical correlated (CC) state is established. Corresponding results for the left and right classical correlations are also obtained. Second, a sufficient and necessary condition for a convex combination of two CC states to be CC is given. It is proved that the set CC of all CC states on is a perfect, nowhere dense and compact subset of the metric space of all states (density operators) on . Based on our new characterization of CC states, a quantity Q(ρ) is associated with a state ρ. It is shown that a state ρ is CC if and only if Q(ρ) = 0. In particular, we prove that the Werner state Wλ in a two-qubit system with a single real parameter λ is CC if and only if λ = 0.25.
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