Nanophotonics (Jan 2015)

Propagation and survival of frequency-bin entangled photons in metallic nanostructures

  • Olislager Laurent,
  • Kubo Wakana,
  • Tanaka Takuo,
  • Ungureanu Simona,
  • Vallée Renaud A. L.,
  • Kolaric Branko,
  • Emplit Philippe,
  • Massar Serge

DOI
https://doi.org/10.1515/nanoph-2015-0011
Journal volume & issue
Vol. 4, no. 3
pp. 324 – 331

Abstract

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We report on the design of two plasmonic nanostructures and the propagation of frequency-bin entangled photons through them. The experimental findings clearly show the robustness of frequency-bin entanglement, which survives after interactions with both a hybrid plasmo-photonic structure, and a nano-pillar array. These results confirm that quantum states can be encoded into the collective motion of a many-body electronic system without demolishing their quantum nature, and pave the way towards applications of plasmonic structures in quantum information.