Controlling the charge environment of single quantum dots in a photonic-crystal cavity

N.J.G. Chauvin; C. Zinoni; M. Francardi; A. Gerardino; L.P. Balet; B. Alloing; L.H. Li; A. Fiore

doi:10.1103/PhysRevB.80.241306

Controlling the charge environment of single quantum dots in a photonic-crystal cavity

N.J.G. Chauvin, C. Zinoni, M. Francardi, A. Gerardino, L.P. Balet, B. Alloing, L.H. Li, A. Fiore

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Abstract

We demonstrate that the presence of charges around a semiconductor quantum dot (QD) strongly affects its optical properties and produces nonresonant coupling to the modes of a microcavity. We show that, besides (multi)exciton lines, a QD generates a spectrally broad emission which efficiently couples to cavity modes. Its temporal dynamics shows that it is related to the Coulomb interaction between the QD (multi)excitons and carriers in the adjacent wetting layer. This mechanism is suppressed by the application of an electric field, making the QD closer to an ideal two-level system.

Original language	English
Article number	241306
Number of pages	4
Journal	Physical Review B
Volume	80
Issue number	24
DOIs	https://doi.org/10.1103/PhysRevB.80.241306
Publication status	Published - 2009

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abstract = "We demonstrate that the presence of charges around a semiconductor quantum dot (QD) strongly affects its optical properties and produces nonresonant coupling to the modes of a microcavity. We show that, besides (multi)exciton lines, a QD generates a spectrally broad emission which efficiently couples to cavity modes. Its temporal dynamics shows that it is related to the Coulomb interaction between the QD (multi)excitons and carriers in the adjacent wetting layer. This mechanism is suppressed by the application of an electric field, making the QD closer to an ideal two-level system.",

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AU - Chauvin, N.J.G.

AU - Zinoni, C.

AU - Francardi, M.

AU - Gerardino, A.

AU - Balet, L.P.

AU - Alloing, B.

AU - Li, L.H.

AU - Fiore, A.

PY - 2009

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AB - We demonstrate that the presence of charges around a semiconductor quantum dot (QD) strongly affects its optical properties and produces nonresonant coupling to the modes of a microcavity. We show that, besides (multi)exciton lines, a QD generates a spectrally broad emission which efficiently couples to cavity modes. Its temporal dynamics shows that it is related to the Coulomb interaction between the QD (multi)excitons and carriers in the adjacent wetting layer. This mechanism is suppressed by the application of an electric field, making the QD closer to an ideal two-level system.

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IS - 24

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Controlling the charge environment of single quantum dots in a photonic-crystal cavity

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