Three-dimensional nanoscale study of Al segregation and quantum dot formation in GaAs/AlGaAs core-shell nanowires

Three-dimensional nanoscale study of Al segregation and quantum dot formation in GaAs/AlGaAs core-shell nanowires

GaAs/Al-GaAs core-shell nanowires fabricated by molecular beam epitaxy contain quantum confining structures susceptible of producing narrow photoluminescence (PL) and single photons. The nanoscale chemical mapping of these structures is analyzed in 3D by atom probe tomography (APT). The study allows...

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Veröffentlicht in:Applied physics letters 2014-12, Vol.105 (24)
Hauptverfasser: Mancini, L., Fontana, Y., Conesa-Boj, S., Blum, I., Vurpillot, F., Francaviglia, L., Russo-Averchi, E., Heiss, M., Arbiol, J., Morral, A. Fontcuberta i, Rigutti, L.
Format: Artikel
Sprache:eng
Schlagworte:
ALUMINIUM
ALUMINIUM ARSENIDES
Aluminum gallium arsenides
Applied physics
ATOMS
Confining
EMISSION SPECTRA
FLUCTUATIONS
Gallium arsenide
GALLIUM ARSENIDES
Hexagons
MAPPING
MOLECULAR BEAM EPITAXY
NANOSCIENCE AND NANOTECHNOLOGY
NANOWIRES
Organic chemistry
PHOTOLUMINESCENCE
PHOTONS
PROBES
QUANTUM DOTS
SEGREGATION
Three dimensional models
THREE-DIMENSIONAL LATTICES
TOMOGRAPHY
Variation
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Zusammenfassung:GaAs/Al-GaAs core-shell nanowires fabricated by molecular beam epitaxy contain quantum confining structures susceptible of producing narrow photoluminescence (PL) and single photons. The nanoscale chemical mapping of these structures is analyzed in 3D by atom probe tomography (APT). The study allows us to confirm that Al atoms tend to segregate within the AlGaAs shells towards the vertices of the hexagons defining the nanowire cross section. We also find strong alloy fluctuations remaining AlGaAs shell, leading occasionally to the formation of quantum dots (QDs). The PL emission energies predicted in the framework of a 3D effective mass model for a QD analyzed by APT and the PL spectra measured on other nanowires from the same growth batch are consistent within the experimental uncertainties.
ISSN:0003-6951
1077-3118
DOI:10.1063/1.4904952