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Entanglement versus correlations in spin systems.

Research paper by F F Verstraete, M M Popp, J I JI Cirac

Indexed on: 03 Feb '04Published on: 03 Feb '04Published in: Physical review letters



Abstract

We consider pure quantum states of N>1 spins or qubits and study the average entanglement that can be localized between two separated spins by performing local measurements on the other individual spins. We show that all classical correlation functions provide lower bounds to this localizable entanglement, which follows from the observation that classical correlations can always be increased by doing appropriate local measurements on the other qubits. We analyze the localizable entanglement in familiar spin systems and illustrate the results on the hand of the Ising spin model, in which we observe characteristic features for a quantum phase transition such as a diverging entanglement length.