6533b82ffe1ef96bd1294614
RESEARCH PRODUCT
Ab initio simulations on Frenkel pairs of radiation defects in corundum
Sergei PiskunovAlexander PlatonenkoYu. F. ZhukovskiiEugene A. Kotominsubject
Atomic orbitalChemistryLattice (order)AtomAb initioFrenkel defectengineeringCorundumDensity functional theoryDumbbellAtomic physicsengineering.materialdescription
Large scale first principles periodic calculations based on the density functional theory within the localized atomic orbital approach (DFT-LCAO) using the hybrid exchange- correlation potential B3PW have been performed in order to study the structural and electronic properties of radiation-induced Frenkel pairs Oi+VO in corundum crystal. As an initial approach, we have used conventional 2x2x1 supercell for defective α-Al2O3 lattice containing 120 atoms. After relaxation of the ideal supercell structure, the optimized doi-vo distance has been found to be ~4.5 A while the formation energy of Frenkel pair has achieved 11.7 eV. The interstitial Oi atom, both single and a component of Oi+VO pair, spontaneously forms a dumbbell with the adjacent atom in the regular oxygen sublattice (doi-o = 1.404 A) with the induced charge -1.1 e. On the whole, possibilities of supercell model for proper description of Frenkel pairs with changing inter-defect distance and space orientation inside corundum crystal are rather limited. This is why the alternative cluster model must be developed for this aim.
| year | journal | country | edition | language |
|---|---|---|---|---|
| 2015-03-09 | IOP Conference Series: Materials Science and Engineering |