Optical properties of single ZnTe nanowires grown at low temperature

Alberto Artioli (NEEL); Catherine Bougerol (NEEL); David Ferrand (NEEL); Edith Bellet-Amalric (INAC); Fabrice Donatini (NEEL); Gilles Nogues (NEEL); INAC); Joel Cibert (NEEL); Kuntheak Kheng (INAC); Martien Den Hertog (NEEL)

arxiv: 1306.2858 · v1 · pith:S5ST6H3Bnew · submitted 2013-06-12 · ❄️ cond-mat.mtrl-sci

Optical properties of single ZnTe nanowires grown at low temperature

Alberto Artioli (NEEL) , Pamela Rueda-Fonseca (NEEL , INAC) , Petr Stepanov (NEEL) , Edith Bellet-Amalric (INAC) , Martien Den Hertog (NEEL) , Catherine Bougerol (NEEL) , Yann Genuist (NEEL)

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Fabrice Donatini (NEEL) R\'egis Andr\'e (NEEL) Gilles Nogues (NEEL) Kuntheak Kheng (INAC) Serge Tatarenko (NEEL) David Ferrand (NEEL) Joel Cibert (NEEL)

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classification ❄️ cond-mat.mtrl-sci

keywords nanowireszntetemperaturebeengrownlayersinglestrain

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Optically active gold-catalyzed ZnTe nanowires have been grown by molecular beam epitaxy, on a ZnTe(111) buffer layer, at low temperature 350\degree under Te rich conditions, and at ultra-low density (from 1 to 5 nanowires per micrometer^{2}. The crystalline structure is zinc blende as identified by transmission electron microscopy. All nanowires are tapered and the majority of them are <111> oriented. Low temperature micro-photoluminescence and cathodoluminescence experiments have been performed on single nanowires. We observe a narrow emission line with a blue-shift of 2 or 3 meV with respect to the exciton energy in bulk ZnTe. This shift is attributed to the strain induced by a 5 nm-thick oxide layer covering the nanowires, and this assumption is supported by a quantitative estimation of the strain in the nanowires.

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Optical properties of single ZnTe nanowires grown at low temperature

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