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Self-consistent band structures, charge distributions, and optical-absorption spectra in MgO,. alpha. -Al sub 2 O sub 3 , and MgAl sub 2 O sub 4

Journal Article · · Physical Review, B: Condensed Matter; (USA)
;  [1]
  1. University of Missouri, Kansas City, MO (USA). Department of Physics
+ Show Author Affiliations
The electronic structures, the charge-density distributions, and the optical-absorption spectra in MgO, {alpha}-Al{sub 2}O{sub 3}, and MgAl{sub 2}O{sub 4} crystals are studied by means of the first-principles self-consistent orthogonalized linear combination of atomic orbitals method. The calculated band structures of MgO and {alpha}-Al{sub 2}O{sub 3} are compared with experimental data and previous calculations. It is concluded that the electronic structure and optical properties of the spinel MgAl{sub 2}O{sub 4} cannot be taken as a simple average of that of MgO and {alpha}-Al{sub 2}O{sub 3}. By direct space integration of the calculated charge, it is shown that the ionic nature of these crystals should be best described by the formulas Mg{sup 1.83+}O{sup 1.83{minus}}, Al{sub 2}{sup 2.63+}O{sub 3}{sup 1.75{minus}}, and Mg{sup 1.79+}Al{sub 2}{sup 2.63+}O{sub 4}{sup 1.76{minus}}. The charge-density maps also reveal that there are open channels of very low electron density in MgAl{sub 2}O{sub 4}, which may be important in ionic conductivity. The calculated optical dielectric functions for the three crystals are compared with recent vacuum ultraviolet data for an energy range up to 40 eV and show good overall agreement. The existence of an excitonic peak near the absorption edge tends to sharpen the edge, thereby increasing the gap as compared with the one-electron local-density calculations. For absorption spectra beyond the excitonic peak, most of the experimentally resolved structures are reproduced by the calculations without the need of an adjustment to widen the gap. It appears that the high conduction-band states in these three crystals, calculated by using the local-density approximation, are reasonably accurate.
DOE Contract Number:
FG02-84ER45170
OSTI ID:
5646145
Journal Information:
Physical Review, B: Condensed Matter; (USA), Journal Name: Physical Review, B: Condensed Matter; (USA) Vol. 43:5; ISSN 0163-1829; ISSN PRBMD
Country of Publication:
United States
Language:
English

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Related Subjects

36 MATERIALS SCIENCE
360204* -- Ceramics
Cermets
& Refractories-- Physical Properties
ABSORPTION SPECTRA
ALKALINE EARTH METAL COMPOUNDS
ALUMINIUM COMPOUNDS
ALUMINIUM OXIDES
BAND THEORY
CERAMICS
CHALCOGENIDES
CHARGE DISTRIBUTION
CRYSTAL STRUCTURE
ELECTRONIC STRUCTURE
MAGNESIUM COMPOUNDS
MAGNESIUM OXIDES
OXIDES
OXYGEN COMPOUNDS
SPECTRA