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Plasmon-assisted transmission of entangled photons

Author

Listed:
  • E. Altewischer

    (Leiden University, Huygens Laboratory)

  • M. P. van Exter

    (Leiden University, Huygens Laboratory)

  • J. P. Woerdman

    (Leiden University, Huygens Laboratory)

Abstract

The state of a two-particle system is said to be entangled when its quantum-mechanical wavefunction cannot be factorized into two single-particle wavefunctions. This leads to one of the strongest counter-intuitive features of quantum mechanics, namely non-locality1,2. Experimental realization of quantum entanglement is relatively easy for photons; a starting photon can spontaneously split into a pair of entangled photons inside a nonlinear crystal. Here we investigate the effects of nanostructured metal optical elements3 on the properties of entangled photons. To this end, we place optically thick metal films perforated with a periodic array of subwavelength holes in the paths of the two entangled photons. Such arrays convert photons into surface-plasmon waves—optically excited compressive charge density waves—which tunnel through the holes before reradiating as photons at the far side4,5,6,7. We address the question of whether the entanglement survives such a conversion process. Our coincidence counting measurements show that it does, so demonstrating that the surface plasmons have a true quantum nature. Focusing one of the photon beams on its array reduces the quality of the entanglement. The propagation of the surface plasmons makes the array effectively act as a ‘which way’ detector.

Suggested Citation

  • E. Altewischer & M. P. van Exter & J. P. Woerdman, 2002. "Plasmon-assisted transmission of entangled photons," Nature, Nature, vol. 418(6895), pages 304-306, July.
    • Handle: RePEc:nat:nature:v:418:y:2002:i:6895:d:10.1038_nature00869
    DOI: 10.1038/nature00869
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    Cited by:

    1. Guanghui Cheng & Meng-Hsien Lin & Hung-Ying Chen & Dongli Wang & Zheyan Wang & Wei Qin & Zhenyu Zhang & Changgan Zeng, 2024. "Reversible modulation of superconductivity in thin-film NbSe2 via plasmon coupling," Nature Communications, Nature, vol. 15(1), pages 1-7, December.

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