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Distribution of entanglement in networks of bi-partite full-rank mixed states

We study quantum entanglement distribution on networks with full-rank bi-partite mixed states linking qubits on nodes. In particular, we use entanglement swapping and purification to partially entangle widely separated nodes. The simplest method consists of performing entanglement swappings along the shortest chain of links connecting the two nodes. However, we show that this method may be improved upon by choosing a protocol with a specific ordering of swappings and purifications. A priori, the design that produces optimal improvement is not clear. However, we parametrize the choices and find that the optimal values depend strongly on the desired measure of improvement. As an initial application, we apply the new improved protocols to the Erdös--Rényi network and obtain results including low density limits and an exact calculation of the average entanglement gained at the critical point.

preprint2012arXivOpen access
G. J. Lapeyre Jr.S. PerseguersM. LewensteinA. Acín
quant-ph
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G. J. Lapeyre Jr.S. PerseguersM. LewensteinA. Acín

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