K. Naji scite author profile

K. Naji

2Publications

61Citation Statements Received

88Citation Statements Given

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Affiliations

LafargeHolcim (France), Institut des Nanotechnologies de Lyon, École Centrale de Lyon

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Excitonic properties of wurtzite InP nanowires grown on silicon substrate

Alouane¹,

Chauvin²,

Khmissi³

et al. 2012

Nanotechnology

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In order to investigate the optical properties of wurtzite (Wz) InP nanowires grown on Si(001) by solid source molecular beam epitaxy with the vapour-liquid-solid method, the growth temperature and V/III pressure ratio have been optimized to remove any zinc-blende insertion. These pure Wz InP nanowires have been investigated by photoluminescence (PL), time-resolved PL and PL excitation. Direct observation of the second and third valence band in Wz InP nanowires using PL spectroscopy at high excitation power have been reported and, from these measurements, a crystal field splitting of 74 meV and a spin-orbit interaction energy of 145 meV were extracted. Based on the study of temperature-dependent optical properties, we have performed an investigation of the thermal escape processes of carriers and the electron-phonon coupling strength.

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Growth temperature dependence of exciton lifetime in wurtzite InP nanowires grown on silicon substrates

Chauvin

Alouane

Anufriev

et al. 2012

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InP nanowires grown on silicon substrate are investigated using time-resolved spectroscopy. A strong modification of the exciton lifetime is observed (from 0.11 to 1.2 ns) when the growth temperature is increased from 340 °C to 460 °C. This strong dependence is not related to the density of zinc-blende insertions in the wurtzite nanowires or to the wurtzite exciton linewidth. The excitation power dependence of the lifetime and linewidth is investigated, and these results allow us to interpret the growth temperature dependence on the lifetime as a consequence of the reduction of the surface recombination velocity with the growth temperature.

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K. Naji

Excitonic properties of wurtzite InP nanowires grown on silicon substrate

Growth temperature dependence of exciton lifetime in wurtzite InP nanowires grown on silicon substrates

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