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Spontaneous photon-pair generation from a dielectric nanoantenna

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Authors

Marino, Giuseppe
Solntsev, Alexander
Xu, Lei
Gili, Valerio F.
Carletti, Luca
Poddubny, Alexander
Rahmani, Mohsen
Smirnova, Daria
Chen, Haitao
Lemaitre, Aristide

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Optical Society of American (OSA)

Abstract

Optical nanoantennas have shown a great capacity for efficient extraction of photons from the near to the far field, enabling directional emission from nanoscale single-photon sources. However, their potential for the generation and extraction of multi-photon quantum states remains unexplored. Here we experimentally demonstrate the nanoscale generation of two-photon quantum states at telecommunication wavelengths based on spontaneous parametric down-conversion in an optical nanoantenna. The antenna is a crystalline AlGaAs nanocylinder, possessing Mie-type resonances at both the pump and the bi-photon wavelengths, and when excited by a pump beam it generates photon pairs with a rate of 35 Hz. Normalized to the pump energy stored by the nanoantenna, this rate corresponds to 1.4 GHz/Wm, being 1 order of magnitude higher than conventional on-chip or bulk photon-pair sources. Our experiments open the way for multiplexing several antennas for coherent generation of multi-photon quantum states with complex spatial-mode entanglement and applications in free-space quantum communications and sensing.

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Source

Optica

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Open Access

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OSA Open Access Publishing Agreement

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