Entanglement purification of unknown quantum states

Details Entanglement purification of unknown quantum states Entanglement purification of unknown quantum states

2000-10-09

arxiv.org/abs/quant-ph/0010038v1

Phys. Rev. A 63, 042309 (2001)

Physics

Quantum Physics

20 pages RevTeX 3.0 + 1 figure (encapsulated Postscript) Submitted to Physical Review A

Scientific paper

10.1103/PhysRevA.63.042309

A concern has been expressed that ``the Jaynes principle can produce fake entanglement'' [R. Horodecki et al., Phys. Rev. A {\bf 59}, 1799 (1999)]. In this paper we discuss the general problem of distilling maximally entangled states from $N$ copies of a bipartite quantum system about which only partial information is known, for instance in the form of a given expectation value. We point out that there is indeed a problem with applying the Jaynes principle of maximum entropy to more than one copy of a system, but the nature of this problem is classical and was discussed extensively by Jaynes. Under the additional assumption that the state $\rho^{(N)}$ of the $N$ copies of the quantum system is exchangeable, one can write down a simple general expression for $\rho^{(N)}$. We show how to modify two standard entanglement purification protocols, one-way hashing and recurrence, so that they can be applied to exchangeable states. We thus give an explicit algorithm for distilling entanglement from an unknown or partially known quantum state.

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