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RESEARCH PRODUCT
First principles modelling of oxygen impurities in UN nuclear fuels
Eugene A. KotominYuri A. Mastrikovsubject
Nuclear and High Energy PhysicsElectron densityChemistrychemistry.chemical_elementUraniumOxygenIonNuclear Energy and EngineeringImpurityVacancy defectPhysical chemistryGeneral Materials ScienceAtomic physicsIsostructuralSpectroscopydescription
We report results of first principles VASP supercell calculations of O impurity in UN fuels placed either at an interstitial tetrahedral position or as a substitution for a host N ion. In the latter case O perfectly fits into N site producing no lattice distortion. Such the O substitutional impurity only slightly affects the formation energies of U and N vacancies nearby. In both interstitial and substitutional positions O atom attracts the additional electron density and transforms into the negatively charged ion. Oxygen incorporation into pre-existing N vacancy is energetically more favourable than into the interstitial position. The O impurities produce an additional peak at the low energy side of N contribution to the DOS calculated for uranium mononitride which could be used for the O identification by means of the UPS spectroscopy. We compare also the DOS calculated for UN and hypothetical isostructural UO. Both O solution and incorporation energies are negative, indicating that O penetration into UN fuel is the energetically favourable. The migration energy of the interstitial O ion is estimated as 2.8 eV.
| year | journal | country | edition | language |
|---|---|---|---|---|
| 2008-07-01 | Journal of Nuclear Materials |