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Related Experiment Video

Updated: Jun 14, 2026

Colloidal Synthesis of Nanopatch Antennas for Applications in Plasmonics and Nanophotonics
09:12

Colloidal Synthesis of Nanopatch Antennas for Applications in Plasmonics and Nanophotonics

Published on: May 28, 2016

Optical patch antennas for single photon emission using surface plasmon resonances.

R Esteban1, T V Teperik, J J Greffet

  • 1Laboratoire Charles Fabry, Institut d'Optique, CNRS, Université Paris-Sud, Campus Polytechnique, RD 128, 91127 Palaiseau cedex, France.

Physical Review Letters
|April 7, 2010
PubMed
Summary
This summary is machine-generated.

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Plasmonic cavities offer a new way to improve single photon sources by overcoming the limitations of dielectric cavities. A patch antenna design shows promise for enhancing photon emission properties.

Area of Science:

  • Quantum optics
  • Nanophotonics
  • Materials science

Background:

  • Single photon sources are crucial for quantum technologies.
  • Existing dielectric cavities face trade-offs between spectral width and Purcell factor.
  • Specialized structures are needed to enhance photon emitter properties.

Purpose of the Study:

  • To introduce and investigate plasmonic cavities as an alternative to dielectric cavities for single photon sources.
  • To analyze the coupling between photon emitters and plasmonic cavity modes.
  • To demonstrate a plasmonic configuration that optimizes multiple performance metrics.

Main Methods:

  • Theoretical study of emitter-plasmonic cavity coupling.
  • Numerical simulations of plasmonic cavity performance.

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Last Updated: Jun 14, 2026

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09:12

Colloidal Synthesis of Nanopatch Antennas for Applications in Plasmonics and Nanophotonics

Published on: May 28, 2016

Determination of the Excitation and Coupling Rates Between Light Emitters and Surface Plasmon Polaritons
07:39

Determination of the Excitation and Coupling Rates Between Light Emitters and Surface Plasmon Polaritons

Published on: July 21, 2018

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  • Analysis of a patch antenna configuration for enhanced light-matter interaction.
  • Main Results:

    • Plasmonic cavities provide a viable alternative to dielectric structures.
    • The coupling mechanism between emitters and plasmonic modes was elucidated.
    • A patch antenna configuration achieved a high Purcell factor, collection efficiency, and spectral width simultaneously.

    Conclusions:

    • Plasmonic cavities, particularly patch antenna designs, offer significant advantages for single photon sources.
    • This approach overcomes the spectral width-Purcell factor compromise seen in dielectric cavities.
    • The findings pave the way for more efficient and versatile quantum light sources.