Wenjamin Rosenfeld, Stefan Berner, Juergen Volz, Markus Weber, Harald Weinfurter
Published 2006-08-29Version 1
Storage and distribution of quantum information are key elements of quantum information processing and quantum communication. Here, using atom-photon entanglement as the main physical resource, we experimentally demonstrate the preparation of a distant atomic quantum memory. Applying a quantum teleportation protocol on a locally prepared state of a photonic qubit, we realized this so-called remote state preparation on a single, optically trapped 87Rb atom. We evaluated the performance of this scheme by the full tomography of the prepared atomic state, reaching an average fidelity of 82%.
Limits for compression of quantum information carried by ensembles of mixed states
Coordination Games with Quantum Information
Quantum information and statistical mechanics: an introduction to frontier
