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Showing 1–6 of 6 results
Advanced filters: Author: S. Olmschenk Clear advanced filters

  • Here it is shown, both theoretically and experimentally, that non-local correlations between entangled quantum particles can be used for a new cryptographic application — the generation of certified private random numbers — that is impossible to achieve classically. The results have implications for future device-independent quantum information experiments and for addressing fundamental issues regarding the randomness of quantum theory.

    • S. Pironio
    • A. Acín
    • C. Monroe
    Research
    Nature
    Volume: 464, P: 1021-1024

  • Entanglement between two single-ion quantum memories separated by a metre has been achieved. The use of single ions, rather than atomic ensembles, has distinct advantages for subsequent quantum operations: long coherence times, enhanced stability, and ease of measurement without ejection of the ion from the trap.

    • D. L. Moehring
    • P. Maunz
    • C. Monroe
    Research
    Nature
    Volume: 449, P: 68-71

  • Many quantum protocols require fast, remote entanglement generation to outperform their classical counterparts. A modular solution is now reported, using trapped ions that are remotely entangled through photons.

    • D. Hucul
    • I. V. Inlek
    • C. Monroe
    Research
    Nature Physics
    Volume: 11, P: 37-42

  • This review covers state-of-the-art quantum teleportation technologies, from photonic qubits and optical modes to atomic ensembles, trapped atoms and solid-state systems. Open issues and potential future implementations are also discussed.

    • S. Pirandola
    • J. Eisert
    • S. L. Braunstein
    Reviews
    Nature Photonics
    Volume: 9, P: 641-652