Photoexcitation screening of the built-in electric field in ZnO single quantum wells

Photoexcitation screening of the built-in electric field in ZnO single quantum wells

ZnO / Mg 0.22 Zn 0.78 O quantum wells were studied by excitation-intensity-dependent luminescence at 10 K. The samples were grown by laser molecular-beam epitaxy on ScAlMgO 4 substrates to evaluate the well width dependence (1 to 10 nm) of exciton transition energies. Under weak excitation, the phot...

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Veröffentlicht in:Applied physics letters 2008-09, Vol.93 (12), p.121907-121907-3
Hauptverfasser: Makino, T., Segawa, Y., Tsukazaki, A., Ohtomo, A., Kawasaki, M.
Format: Artikel
Sprache:eng
Schlagworte:
CRYSTAL GROWTH
DIELECTRIC MATERIALS
ELECTRIC FIELDS
EXCITATION
EXCITONS
LASERS
MAGNESIUM COMPOUNDS
MATERIALS SCIENCE
MOLECULAR BEAM EPITAXY
PHOTOLUMINESCENCE
PIEZOELECTRICITY
POLARIZATION
QUANTUM WELLS
SEMICONDUCTOR MATERIALS
SPECTRAL SHIFT
STARK EFFECT
SUBSTRATES
ZINC OXIDES
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Zusammenfassung:ZnO / Mg 0.22 Zn 0.78 O quantum wells were studied by excitation-intensity-dependent luminescence at 10 K. The samples were grown by laser molecular-beam epitaxy on ScAlMgO 4 substrates to evaluate the well width dependence (1 to 10 nm) of exciton transition energies. Under weak excitation, the photoluminescence shows a quantum-confined Stark effect for the wide wells. The well width dependences of the experimental transition energies are compared with previously reported calculations to evaluate the electric field due to spontaneous and piezoelectric polarizations. The internal electric field is comparable with 650 kV/cm. With an increase in excitation intensity, blueshift of the luminescence was observed, suggesting photoexcitation screening of electric fields.
ISSN:0003-6951
1077-3118
DOI:10.1063/1.2981523