Optical nonlinearity for few-photon pulses on a quantum dot-pillar cavity device

V. Loo; C. Arnold; O. Gazzano; A. Lemaître; I. Sagnes; O. Krebs; P. Voisin; P. Senellart; L. Lanco

doi:10.1103/PhysRevLett.109.166806

Optical nonlinearity for few-photon pulses on a quantum dot-pillar cavity device

V. Loo
, C. Arnold
, O. Gazzano
, A. Lemaître
, I. Sagnes
, O. Krebs
, P. Voisin
, P. Senellart
, L. Lanco

École Polytechnique

CNRS
Laboratoire de Probabilités et Modèles Aléatoires

Résultats de recherche: Contribution à un journal › Article › Revue par des pairs

Résumé

Giant optical nonlinearity is observed under both continuous wave and pulsed excitation in a deterministically coupled quantum dot-micropillar system, in a pronounced strong-coupling regime. Using absolute reflectivity measurements we determine the critical intracavity photon number as well as the input and output coupling efficiencies of the device. Thanks to a near-unity input-coupling efficiency, we demonstrate a record nonlinearity threshold of only 8 incident photons per pulse. The output-coupling efficiency is found to strongly influence this nonlinearity threshold. We show how the fundamental limit of single-photon nonlinearity can be attained in realistic devices, which would provide an effective interaction between two coincident single-photons.

langue originale	Anglais
Numéro d'article	166806
journal	Physical Review Letters
Volume	109
Numéro de publication	16
Les DOIs	https://doi.org/10.1103/PhysRevLett.109.166806
état	Publié - 19 oct. 2012

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10.1103/PhysRevLett.109.166806

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title = "Optical nonlinearity for few-photon pulses on a quantum dot-pillar cavity device",

abstract = "Giant optical nonlinearity is observed under both continuous wave and pulsed excitation in a deterministically coupled quantum dot-micropillar system, in a pronounced strong-coupling regime. Using absolute reflectivity measurements we determine the critical intracavity photon number as well as the input and output coupling efficiencies of the device. Thanks to a near-unity input-coupling efficiency, we demonstrate a record nonlinearity threshold of only 8 incident photons per pulse. The output-coupling efficiency is found to strongly influence this nonlinearity threshold. We show how the fundamental limit of single-photon nonlinearity can be attained in realistic devices, which would provide an effective interaction between two coincident single-photons.",

author = "V. Loo and C. Arnold and O. Gazzano and A. Lema{\^i}tre and I. Sagnes and O. Krebs and P. Voisin and P. Senellart and L. Lanco",

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AU - Loo, V.

AU - Arnold, C.

AU - Gazzano, O.

AU - Lemaître, A.

AU - Sagnes, I.

AU - Krebs, O.

AU - Voisin, P.

AU - Senellart, P.

AU - Lanco, L.

PY - 2012/10/19

Y1 - 2012/10/19

N2 - Giant optical nonlinearity is observed under both continuous wave and pulsed excitation in a deterministically coupled quantum dot-micropillar system, in a pronounced strong-coupling regime. Using absolute reflectivity measurements we determine the critical intracavity photon number as well as the input and output coupling efficiencies of the device. Thanks to a near-unity input-coupling efficiency, we demonstrate a record nonlinearity threshold of only 8 incident photons per pulse. The output-coupling efficiency is found to strongly influence this nonlinearity threshold. We show how the fundamental limit of single-photon nonlinearity can be attained in realistic devices, which would provide an effective interaction between two coincident single-photons.

AB - Giant optical nonlinearity is observed under both continuous wave and pulsed excitation in a deterministically coupled quantum dot-micropillar system, in a pronounced strong-coupling regime. Using absolute reflectivity measurements we determine the critical intracavity photon number as well as the input and output coupling efficiencies of the device. Thanks to a near-unity input-coupling efficiency, we demonstrate a record nonlinearity threshold of only 8 incident photons per pulse. The output-coupling efficiency is found to strongly influence this nonlinearity threshold. We show how the fundamental limit of single-photon nonlinearity can be attained in realistic devices, which would provide an effective interaction between two coincident single-photons.

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DO - 10.1103/PhysRevLett.109.166806

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SN - 0031-9007

VL - 109

JO - Physical Review Letters

JF - Physical Review Letters

IS - 16

M1 - 166806

ER -

Optical nonlinearity for few-photon pulses on a quantum dot-pillar cavity device

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