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Design of plasmon cavities for solid-state cavity quantum electrodynamics applications

Publication ,  Journal Article
Gong, Y; Vučković, J
Published in: Applied Physics Letters
January 29, 2007
Published version (DOI)

Research on photonic cavities with low mode volume and high quality factor garners much attention because of applications ranging from optoelectronics to cavity quantum electrodynamics (QED). The authors propose a cavity based on surface plasmon modes confined by metallic distributed Bragg reflectors. They analyze the structure with finite difference time domain simulations and obtain modes with quality factor of 1000 (including losses from metals at low temperatures), reduced mode volume relative to photonic crystal cavities, Purcell enhancements of hundreds, and even the capability of enabling cavity QED strong coupling. © 2007 American Institute of Physics.

Duke Scholars

Yiyang Gong
Author Yiyang Gong Biomedical Engineering
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Published In

Applied Physics Letters

DOI

10.1063/1.2431450

ISSN

0003-6951

Publication Date

January 29, 2007

Volume

90

Issue

3

Related Subject Headings

  • Applied Physics
  • 51 Physical sciences
  • 40 Engineering
  • 10 Technology
  • 09 Engineering
  • 02 Physical Sciences
 

Citation

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Gong, Y., & Vučković, J. (2007). Design of plasmon cavities for solid-state cavity quantum electrodynamics applications. Applied Physics Letters, 90(3). https://doi.org/10.1063/1.2431450
Gong, Y., and J. Vučković. “Design of plasmon cavities for solid-state cavity quantum electrodynamics applications.” Applied Physics Letters 90, no. 3 (January 29, 2007). https://doi.org/10.1063/1.2431450.
Gong Y, Vučković J. Design of plasmon cavities for solid-state cavity quantum electrodynamics applications. Applied Physics Letters. 2007 Jan 29;90(3).
Gong, Y., and J. Vučković. “Design of plasmon cavities for solid-state cavity quantum electrodynamics applications.” Applied Physics Letters, vol. 90, no. 3, Jan. 2007. Scopus, doi:10.1063/1.2431450.
Gong Y, Vučković J. Design of plasmon cavities for solid-state cavity quantum electrodynamics applications. Applied Physics Letters. 2007 Jan 29;90(3).

Published In

Applied Physics Letters

DOI

10.1063/1.2431450

ISSN

0003-6951

Publication Date

January 29, 2007

Volume

90

Issue

3

Related Subject Headings

  • Applied Physics
  • 51 Physical sciences
  • 40 Engineering
  • 10 Technology
  • 09 Engineering
  • 02 Physical Sciences