Room temperature triggered single-photon source in the near infrared
Identifieur interne : 009101 ( Main/Exploration ); précédent : 009100; suivant : 009102Room temperature triggered single-photon source in the near infrared
Auteurs : E. Wu [France, République populaire de Chine] ; J R Rabeau [Australie] ; G. Roger [France] ; F. Treussart [France] ; H. Zeng [République populaire de Chine] ; P. Grangier [France] ; S. Prawer [Australie] ; J-F Roch [France]Source :
- New Journal of Physics [ 1367-2630 ] ; 2007.
English descriptors
- KwdEn :
- Attenuated pulses, Average excitation power, Background level, Centre, Coincidence counts, Colour, Colour centre, Colour centre emission, Colour centres, Decoy state quantum, Defect, Diamond, Diamond nanocrystal, Diamond nanocrystals, Diamond sample, Dichroic mirror, Emission lifetime, Emission rate, Emitter, Excitation, Excitation laser, Excitation power, Excitation regime, Excitation wavelength, Grangier, Growth time, Gure, Highest ratio, Individual colour centres, Intensity autocorrelation function, Laser, Lett, Material preparation, Microscope objective, Nanocrystals, Numerous possibilities, Optical properties, Photoluminescence, Photoluminescent nanodiamond, Photon, Photon correlation measurement, Phys, Process parameters, Quantum, Quantum cryptography, Random emission, Raster scan, Repetition rate, Room temperature, Single colour centres, Single emitter, Single photons, Stable source, Total number.
- Teeft :
- Attenuated pulses, Average excitation power, Background level, Centre, Coincidence counts, Colour, Colour centre, Colour centre emission, Colour centres, Decoy state quantum, Defect, Diamond, Diamond nanocrystal, Diamond nanocrystals, Diamond sample, Dichroic mirror, Emission lifetime, Emission rate, Emitter, Excitation, Excitation laser, Excitation power, Excitation regime, Excitation wavelength, Grangier, Growth time, Gure, Highest ratio, Individual colour centres, Intensity autocorrelation function, Laser, Lett, Material preparation, Microscope objective, Nanocrystals, Numerous possibilities, Optical properties, Photoluminescence, Photoluminescent nanodiamond, Photon, Photon correlation measurement, Phys, Process parameters, Quantum, Quantum cryptography, Random emission, Raster scan, Repetition rate, Room temperature, Single colour centres, Single emitter, Single photons, Stable source, Total number.
Abstract
We report the realization of a solid-state triggered single-photon source with narrow emission in the near infrared at room temperature. It is based on the photoluminescence of a single nickelnitrogen NE8 colour centre in a chemical vapour deposited diamond nanocrystal. Stable single-photon emission has been observed in the photoluminescence under both continuous-wave and pulsed excitations. The realization of this source represents a step forward in the application of diamond-based single-photon sources to quantum key distribution (QKD) under practical operating conditions.
Url:
DOI: 10.1088/1367-2630/9/12/434
Affiliations:
- Australie, France, République populaire de Chine
- Victoria (État), Île-de-France
- Melbourne, Palaiseau
- Université de Melbourne
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Le document en format XML
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<term>Centre</term>
<term>Coincidence counts</term>
<term>Colour</term>
<term>Colour centre</term>
<term>Colour centre emission</term>
<term>Colour centres</term>
<term>Decoy state quantum</term>
<term>Defect</term>
<term>Diamond</term>
<term>Diamond nanocrystal</term>
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<term>Dichroic mirror</term>
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<term>Excitation regime</term>
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<term>Growth time</term>
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<term>Quantum cryptography</term>
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<front><div type="abstract">We report the realization of a solid-state triggered single-photon source with narrow emission in the near infrared at room temperature. It is based on the photoluminescence of a single nickelnitrogen NE8 colour centre in a chemical vapour deposited diamond nanocrystal. Stable single-photon emission has been observed in the photoluminescence under both continuous-wave and pulsed excitations. The realization of this source represents a step forward in the application of diamond-based single-photon sources to quantum key distribution (QKD) under practical operating conditions.</div>
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