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Experimental realization of freely propagating teleported qubits

Author

Listed:
  • Jian-Wei Pan

    (Universität Wien)

  • Sara Gasparoni

    (Universität Wien)

  • Markus Aspelmeyer

    (Universität Wien)

  • Thomas Jennewein

    (Universität Wien)

  • Anton Zeilinger

    (Universität Wien)

Abstract

Quantum teleportation1 is central to quantum communication, and plays an important role in a number of quantum computation protocols2,3. Most information-processing applications of quantum teleportation include the subsequent manipulation of the qubit (the teleported photon), so it is highly desirable to have a teleportation procedure resulting in high-quality, freely flying qubits. In our previous teleportation experiment4, the teleported qubit had to be detected (and thus destroyed) to verify the success of the procedure. Here we report a teleportation experiment that results in freely propagating individual qubits. The basic idea is to suppress unwanted coincidence detection events by providing the photon to be teleported much less frequently than the auxiliary entangled pair. Therefore, a case of successful teleportation can be identified with high probability without the need actually to detect the teleported photon. The experimental fidelity of our procedure surpasses the theoretical limit required for the implementation of quantum repeaters5,6.

Suggested Citation

  • Jian-Wei Pan & Sara Gasparoni & Markus Aspelmeyer & Thomas Jennewein & Anton Zeilinger, 2003. "Experimental realization of freely propagating teleported qubits," Nature, Nature, vol. 421(6924), pages 721-725, February.
    • Handle: RePEc:nat:nature:v:421:y:2003:i:6924:d:10.1038_nature01412
    DOI: 10.1038/nature01412
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