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Entanglement Theory Quantum Correlations

Entangling qubit registers via many-body states of ultracold atoms

arXiv
Authors: R. G. Melko, C. M. Herdman, D. Iouchtchenko, P. -N. Roy, A. Del Maestro

Year

2015

Paper ID

4513

Status

Preprint

Abstract Read

~2 min

Abstract Words

109

Citations

N/A

Abstract

Inspired by the experimental measurement of the Renyi entanglement entropy in a lattice of ultracold atoms by Islam et al., [Nature 528, 77 (2015)] we propose a method to entangle two spatially-separated qubits using the quantum many-body state as a resource. Through local operations accessible in an experiment, entanglement is transferred to a qubit register from atoms at the ends of a one-dimensional chain. We compute the operational entanglement, which bounds the entanglement physically transferable from the many-body resource to the register, and discuss a protocol for its experimental measurement. Finally, we explore measures for the amount of entanglement available in the register after transfer, suitable for use in quantum information applications.

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  • Inspired by the experimental measurement of the Renyi entanglement entropy in a lattice of ultracold atoms by Islam et al., [Nature 528, 77 (2015)] we propose a method to...

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