Near-field optical spectroscopy of localized excitons in strained CdSe quantum dots

F. Flack; N. Samarth; V. Nikitin; P. Crowell; J. Shi; J. Levy; D. Awschalom

doi:10.1103/PhysRevB.54.R17312

Near-field optical spectroscopy of localized excitons in strained CdSe quantum dots

F. Flack, N. Samarth, V. Nikitin, P. Crowell, J. Shi, J. Levy, D. Awschalom

Physics and Astronomy (Twin Cities)

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174 Scopus citations

Abstract

Control of the growth dynamics during the epitaxy of coherently strained ZnSe/CdSe quantum structures results in a varied interfacial texture that broadly defines two qualitatively different regimes for exciton localization. An island growth mode produces quantum dot regions in which the lateral confinement of excitons is directly revealed through the observation of resolution-limited (full width at half maximum of <0.8 meV) emission peaks in near-field photoluminescence spectra. By contrast, layer-by-layer growth produces potential fluctuations at length scales small compared to the exciton diameter, so that the localization of excitons is driven by a random interfacial potential with a smooth density of states.

Original language	English (US)
Pages (from-to)	R17312-R17315
Journal	Physical Review B - Condensed Matter and Materials Physics
Volume	54
Issue number	24
DOIs	https://doi.org/10.1103/PhysRevB.54.R17312
State	Published - Jan 1 1996

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AU - Samarth, N.

AU - Nikitin, V.

AU - Crowell, P.

AU - Shi, J.

AU - Levy, J.

AU - Awschalom, D.

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N2 - Control of the growth dynamics during the epitaxy of coherently strained ZnSe/CdSe quantum structures results in a varied interfacial texture that broadly defines two qualitatively different regimes for exciton localization. An island growth mode produces quantum dot regions in which the lateral confinement of excitons is directly revealed through the observation of resolution-limited (full width at half maximum of <0.8 meV) emission peaks in near-field photoluminescence spectra. By contrast, layer-by-layer growth produces potential fluctuations at length scales small compared to the exciton diameter, so that the localization of excitons is driven by a random interfacial potential with a smooth density of states.

AB - Control of the growth dynamics during the epitaxy of coherently strained ZnSe/CdSe quantum structures results in a varied interfacial texture that broadly defines two qualitatively different regimes for exciton localization. An island growth mode produces quantum dot regions in which the lateral confinement of excitons is directly revealed through the observation of resolution-limited (full width at half maximum of <0.8 meV) emission peaks in near-field photoluminescence spectra. By contrast, layer-by-layer growth produces potential fluctuations at length scales small compared to the exciton diameter, so that the localization of excitons is driven by a random interfacial potential with a smooth density of states.

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Near-field optical spectroscopy of localized excitons in strained CdSe quantum dots

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