Abstract

If two separated observers are supplied with entanglement, in the form of n pairs of particles in identical partly entangled pure states, one member of each pair being given to each observer, they can, by local actions of each observer, concentrate this entanglement into a smaller number of maximally entangled pairs of particles, for example, Einstein-Podolsky-Rosen singlets, similarly shared between the two observers. The concentration process asymptotically conserves entropy of entanglement—the von Neumann entropy of the partial density matrix seen by either observer—with the yield of singlets approaching, for large n, the base-2 entropy of entanglement of the initial partly entangled pure state. Conversely, any pure or mixed entangled state of two systems can be produced by two classically communicating separated observers, drawing on a supply of singlets as their sole source of entanglement. © 1996 The American Physical Society.

Keywords

Quantum entanglementVon Neumann entropyObserver (physics)Entropy (arrow of time)PhysicsW stateDensity matrixMultipartite entanglementSquashed entanglementQuantum mechanicsState (computer science)MathematicsStatistical physicsQuantum

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Year
1996
Type
article
Volume
53
Issue
4
Pages
2046-2052
Citations
3020
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Closed

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Charles H. Bennett, H. J. Bernstein, Sandu Popescu et al. (1996). Concentrating partial entanglement by local operations. Physical Review A , 53 (4) , 2046-2052. https://doi.org/10.1103/physreva.53.2046

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DOI
10.1103/physreva.53.2046