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Implementation of a Reference Interferometer for Nanodetection
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Imaging and Localizing Individual Atoms Interfaced with a Nanophotonic Waveguide.

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  • 1Vienna Center for Quantum Science and Technology, TU Wien-Atominstitut, Stadionallee 2, 1020 Vienna, Austria.

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We developed a new imaging technique for single atoms coupled to optical nanofibers. This method allows for precise control and observation of atom-nanophoton interactions, advancing quantum nanophotonics research.

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Area of Science:

  • Quantum Physics
  • Nanophotonics
  • Atomic Physics

Background:

  • Single particle-resolved fluorescence imaging is crucial in cold-atom physics.
  • This technique was previously unavailable for nanophotonic atom-light interfaces.

Purpose of the Study:

  • To develop and demonstrate single particle-resolved fluorescence imaging for atoms trapped by optical nanofibers.
  • To enable new experiments in quantum nanophotonics by controlling and observing individual atoms.

Main Methods:

  • Atoms trapped and optically interfaced using an optical nanofiber.
  • Near-resonant light scattered off atoms and imaged.
  • Degenerate Raman cooling counteracted heating mechanisms.
  • Detection of trapped atoms within 150 ms and recording image sequences.

Main Results:

  • Successfully imaged single atoms trapped by an optical nanofiber.
  • Measured light transmission, verifying exponential scaling in the few-atom limit (Beer-Lambert's law).
  • Observed interference of emitted fields from two simultaneously trapped atoms, dependent on interatomic distance.

Conclusions:

  • The demonstrated technique enables postselection and feedback schemes for atom-nanophoton systems.
  • This work opens new avenues for quantum nanophotonics experiments.
  • Provides a platform for studying light-matter interactions at the nanoscale.