Optical properties of wurtzite/zinc-blende heterostructures in GaN nanowires | Zendy

Gwénolé Jacopin | Zendy; Lorenzo Rigutti | Zendy; L. Largeau | Zendy; F. Fortuna | Zendy; Florian Furtmayr | Zendy; F. H. Julien | Zendy; Martin Eickhoff | Zendy; Maria Tchernycheva | Zendy

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Optical properties of wurtzite/zinc-blende heterostructures in GaN nanowires

Author(s) -

Gwénolé Jacopin,

Lorenzo Rigutti,

L. Largeau,

F. Fortuna,

Florian Furtmayr,

F. H. Julien,

Martin Eickhoff,

Maria Tchernycheva

Publication year - 2011

Publication title -

journal of applied physics

Language(s) - English

Resource type - Journals

SCImago Journal Rank - 0.699

H-Index - 319

eISSN - 1089-7550

pISSN - 0021-8979

DOI - 10.1063/1.3638698

Subject(s) - wurtzite crystal structure , nanowire , materials science , photoluminescence , heterojunction , laser linewidth , condensed matter physics , wide bandgap semiconductor , optoelectronics , zinc , optics , laser , physics , metallurgy

The optical and structural properties of wurtzite GaN nanowires containing zinc-blende GaN inclusions of different thicknesses are investigated. Micro-photoluminescence spectra of single nanowires exhibit a series of narrow emission peaks with linewidth as low as 0.8 meV in the interval 3.1-3.42 eV. The peak energy blue-shifts with increasing excitation power following a ∼I1/3 law due to the progressive band filling and to the screening of the internal field. The quantum confinement in these type-II crystal phase heterostructures was simulated in the framework of a one-dimensional effective mass model, accounting for the internal electrical polarization of the wurtzite GaN. The predicted transition energies are in good agreement with the energy statistics realized on more than 30 single nanowire emission spectra

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