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Literature DB >> 20366616

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

Abstract

Single photon sources can greatly benefit from specially designed structures that modify the properties of the photon emitter. Dielectric cavities are often discussed, but they require a compromise between the spectral width and Purcell factor. In this Letter, we introduce plasmonic cavities as promising alternatives. We first study how the emitter couples with the modes of such structures. We then show how a patch antenna configuration simultaneously presents a large Purcell factor, collection efficiency, and spectral width.

Year: 2010 PMID： 20366616 DOI： 10.1103/PhysRevLett.104.026802

Source DB: PubMed Journal: Phys Rev Lett ISSN： 0031-9007 Impact factor: 9.161

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Cited

19 in total

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

1. Bridging quantum and classical plasmonics with a quantum-corrected model.

2. 3D optical Yagi-Uda nanoantenna array.

3. Plasmonic-cavity model for radiating nano-rod antennas.

4. Plasmonic nanopatch array for optical integrated circuit applications.

5. Wireless communication system via nanoscale plasmonic antennas.

6. Highly directional bottom-up 3D nanoantenna for visible light.

7. Ultrafast spontaneous emission source using plasmonic nanoantennas.

8. Controllable emission of a dipolar source coupled with a magneto-dielectric resonant subwavelength scatterer.

9. Efficient excitation of channel plasmons in tailored, UV-lithography-defined V-grooves.

10. Strong anisotropic lifetime orientation distributions of a two-level quantum emitter around a plasmonic nanorod.