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Experimental entanglement purification of arbitrary unknown states

Author

Listed:
  • Jian-Wei Pan

    (Universität Wien)

  • Sara Gasparoni

    (Universität Wien)

  • Rupert Ursin

    (Universität Wien)

  • Gregor Weihs

    (Universität Wien)

  • Anton Zeilinger

    (Universität Wien)

Abstract

Distribution of entangled states between distant locations is essential for quantum communication1,2,3 over large distances. But owing to unavoidable decoherence in the quantum communication channel, the quality of entangled states generally decreases exponentially with the channel length. Entanglement purification4,5—a way to extract a subset of states of high entanglement and high purity from a large set of less entangled states—is thus needed to overcome decoherence. Besides its important application in quantum communication, entanglement purification also plays a crucial role in error correction for quantum computation, because it can significantly increase the quality of logic operations between different qubits6. Here we demonstrate entanglement purification for general mixed states of polarization-entangled photons using only linear optics7. Typically, one photon pair of fidelity 92% could be obtained from two pairs, each of fidelity 75%. In our experiments, decoherence is overcome to the extent that the technique would achieve tolerable error rates for quantum repeaters in long-distance quantum communication8. Our results also imply that the requirement of high-accuracy logic operations in fault-tolerant quantum computation can be considerably relaxed6.

Suggested Citation

  • Jian-Wei Pan & Sara Gasparoni & Rupert Ursin & Gregor Weihs & Anton Zeilinger, 2003. "Experimental entanglement purification of arbitrary unknown states," Nature, Nature, vol. 423(6938), pages 417-422, May.
    • Handle: RePEc:nat:nature:v:423:y:2003:i:6938:d:10.1038_nature01623
    DOI: 10.1038/nature01623
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    Cited by:

    1. He, Juan & Xu, Shuai & Ye, Liu, 2015. "Inducing multipartite entanglement revival in dissipative environment by means of prior quantum uncollapsing measurements," Physica A: Statistical Mechanics and its Applications, Elsevier, vol. 438(C), pages 66-73.
    2. Yang, Ming & Song, Wei & Cao, Zhuo-Liang, 2004. "Entanglement distillation for atomic states via cavity QED," Physica A: Statistical Mechanics and its Applications, Elsevier, vol. 341(C), pages 251-261.

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