Search results for "defect"

showing 10 items of 879 documents

Ab initio modeling of oxygen impurity atom incorporation into uranium mononitride surface and subsurface vacancies

2011

The incorporation of oxygen atoms has been simulated into either nitrogen or uranium vacancy at the UN(001) surface, sub-surface or central layers. For calculations on the corresponding slab models both the relativistic pseudopotentials and the method of projector augmented-waves (PAW) as implemented in the VASP computer code have been used. The energies of O atom incorporation and solution within the defective UN surface have been calculated and discussed. For different configurations of oxygen ions at vacancies within the UN(001) slab, the calculated density of states and electronic charge re-distribution was analyzed. Considerable energetic preference of O atom incorporation into the N-v…

Condensed Matter - Materials ScienceNuclear and High Energy PhysicsChemistryAb initiochemistry.chemical_elementMaterials Science (cond-mat.mtrl-sci)FOS: Physical sciencesUraniumComputational Physics (physics.comp-ph)Elementary chargeNitrogenCondensed Matter::Materials ScienceNuclear Energy and EngineeringVacancy defectAtomDensity of statesSlabPhysics::Atomic and Molecular ClustersGeneral Materials ScienceAtomic physicsPhysics - Computational Physics
researchProduct

Optical properties of Ge-oxygen defect center embedded in silica films

2007

The photo-luminescence features of Ge-oxygen defect centers in a 100nm thick Ge-doped silica film on a pure silica substrate were investigated by looking at the emission spectra and time decay detected under synchrotron radiation excitation in the 10-300 K temperature range. This center exhibits two luminescence bands centered at 4.3eV and 3.2eV associated with its de-excitation from singlet (S1) and triplet (T1) states, respectively, that are linked by an intersystem crossing process. The comparison with results obtained from a bulk Ge-doped silica sample evidences that the efficiency of the intersystem crossing rate depends on the properties of the matrix embedding the Ge-oxygen defect ce…

Condensed Matter - Materials SciencePhotoluminescenceGermaniumSputteringOptical spectroscopyDefectsAbsorptionLuminescenceGermaniaSilicaDopingMaterials Science (cond-mat.mtrl-sci)FOS: Physical scienceschemistry.chemical_elementGermaniumDisordered Systems and Neural Networks (cond-mat.dis-nn)Atmospheric temperature rangeCondensed Matter - Disordered Systems and Neural NetworksCondensed Matter PhysicsPhotochemistryMolecular physicsElectronic Optical and Magnetic MaterialsCondensed Matter::Materials ScienceIntersystem crossingchemistryMaterials ChemistryCeramics and CompositesSinglet stateTriplet stateLuminescence
researchProduct

LCAO calculation of neutral defects in GaN

2005

Four well known HF, LDA, GGA and B3LYP Hamiltonians in LCAO approximation have been used in band structure calculations to obtain the main properties of the perfect GaN crystal with hexagonal lattice (C space group). Calculated lattice parameters, elastic constants and the band gap have been compared with the experimental data and the results of other calculations. As a consequence, the GGA Hamiltonian has been chosen, giving the lattice parameters a = 3.20 A, c = 5.20 A, u = 0.377, the bulk modulus B = 206 GPa and the energy gap Eg = 2.7 eV. These results reasonably reproduce the experimental data. For the point defects calculation (VGa, VN, MgGa, ZnGa, CN, and SiN) the supercell model was…

Condensed Matter::Materials ScienceBulk modulusMaterials scienceCondensed matter physicsPerfect crystalLinear combination of atomic orbitalsBand gapLattice (order)Hexagonal latticeElectronic band structureCrystallographic defectphysica status solidi (c)
researchProduct

First principles simulations of F centers in cubic SrTiO 3

2005

Atomic and electronic structure of regular and O-deficient SrTiO3 have been studied. Several types of first principles atomistic simulations: Hartree-Fock method, Density Functional Theory, and hybrid HF-DFT functionals, have been applied to periodic models that consider supercells of different sizes (ranging between 40 and 240 atoms). We confirm the ionic character of the Sr-O bonds and the high covalency of the Ti-O2 substructure. For the stoichiometric cubic crystal; the lattice constant and bulk modulus correctly reproduce the experimental data whereas the band gap is only properly obtained by the B3PW functional. The relaxed geometry around the F center shows a large expansion of the t…

Condensed Matter::Materials ScienceLattice constantCondensed matter physicsChemistryVacancy defectAtomPhysics::Atomic and Molecular ClustersIonic bondingDensity functional theoryElectronic structureCubic crystal systemElectronic densityphysica status solidi (c)
researchProduct

Positron Annihilation in Polycrystalline Metals Deformed by Uniaxial Tension

2005

Angular distributions of the positron annihilation quanta were measured for polycrystalline samples deformed by uniaxial tension up to difierent deformation degrees. The S parameter as a function of the W parameter was determined. The data obtained for samples elongated up to difierent elongation degrees indicate that in the proportionality and limited proportionality regions the changes in the physical properties of samples are governed mainly by generation of vacancies and formation and kinetics of transformations of vacancy clusters occurring flrst of all on the grains of monocrystallites. In the region of plastic deformations the dominant defects are dislocations and vacancies and their…

Condensed Matter::Materials ScienceMaterials scienceCondensed matter physicsVacancy defectUniaxial tensionGeneral Physics and AstronomyCrystalliteSlip (materials science)ElongationDislocationPositron annihilationActa Physica Polonica A
researchProduct

Calculations of radiation-induced point defects, polarons and excitons in ferroelectric perovskites

2002

Abstract We review results of our recent large-scale computer simulations of radiation-induced point defects, excitons and polarons in ABO3 perovskite crystals, focusing mostly on KNbO3 and KTaO3 as representative examples. We have calculated the atomic and electronic structure of defects, their optical absorption, defect-induced electron density redistribution, and activation energies for defect migration. The majority of our results were obtained using the quantum-chemical method of the intermediate neglect of differential overlap (INDO) based on the Hartree–Fock formalism, as well as the shell model (SM). The main findings are compared with those obtained by means of ab initio density fu…

Condensed Matter::Materials ScienceNuclear and High Energy PhysicsElectron densityCondensed matter physicsChemistryExcitonAb initioDensity functional theoryElectronic structurePolaronInstrumentationCrystallographic defectPerovskite (structure)Nuclear Instruments and Methods in Physics Research Section B: Beam Interactions with Materials and Atoms
researchProduct

Large scale computer modelling of point defects in ABO 3 perovskites

2005

We present results for basic intrinsic defects: F-type electron centers, free and bound electron and hole polarons in ABO3 perovskites. Both one-site (atomic) and two-site (molecular) hole polarons are expected to coexist, characterized by close absorption energies. Shell Model (SM) and intermediate neglect of differential overlap (INDO) calculations of the F center diffusion indicate that the relevant activation energy is quite low, ca. 0.8 eV. Further INDO calculations support the existence of self-trapped electron polarons in PbTiO3, BaTiO3, KNbO3, and KTaO3 crystals. The relevant lattice relaxation energies are typically 0.2 eV, whereas the optical absorption energies are around 0.8 eV.…

Condensed Matter::Materials SciencePhase transitionCondensed matter physicsExtended X-ray absorption fine structureChemistryElectronElectronic structurePolaronCrystallographic defectMolecular physicsPerovskite (structure)Solid solutionphysica status solidi (c)
researchProduct

Positron trapping rate into vacancy clusters

1979

The trapping rate of positrons into vacancy clusters in metals has been calculated. It increases with the trap size and binding energy and approximately scales with the number of vacancies in small clusters. The phonon-mediated contribution to the trapping rate is small. The temperature dependence of the trapping process is discussed.

Condensed Matter::Quantum GasesCondensed Matter::Materials SciencePositronChemistryVacancy defectBinding energyGeneral EngineeringGeneral Materials SciencePhysics::Atomic PhysicsGeneral ChemistryTrappingAtomic physicsPositron trappingApplied Physics
researchProduct

Ab initio simulation of yttrium oxide nanocluster formation on fcc Fe lattice

2010

Using results of density functional theory (DFT) calculations the first attempt towards the understanding of Y2O3 particles formation in oxide dispersed strengthened (ODS) ferritic–martensitic steels was performed. The present work includes modeling of single defects (O impurity atom, Fe vacancy and Y substitute atom), interaction between substituted Y atoms, Y–Fe vacancy pairs and oxygen impurity atoms in the iron matrix. The calculations have showed the repulsive interaction between the two Y substitute atoms at any separation distances that might mean that the oxygen atoms or O atoms with vacancies are required to form binding between atoms in the yttrium oxide nanoclusters.

Condensed Matter::Quantum GasesNuclear and High Energy PhysicsMaterials scienceAb initioOxidechemistry.chemical_elementYttriumNanoclustersCondensed Matter::Materials ScienceCrystallographychemistry.chemical_compoundNuclear Energy and EngineeringchemistryImpurityVacancy defectAtomPhysics::Atomic and Molecular ClustersGeneral Materials ScienceDensity functional theoryPhysics::Atomic PhysicsPhysics::Chemical PhysicsNuclear chemistryJournal of Nuclear Materials
researchProduct

Textures in hexatic films of nonchiral liquid crystals: Symmetry breaking and modulated phases

1994

Novel modulated textures, such as stripes and multiarmed star defects, have been observed in freely suspended films of nonchiral liquid crystals just below the smectic-$C$ to hexatic phase transition. Detailed studies using depolarized reflection microscopy suggest that the stripes are locally chiral surface splay domains of the smectic-$L$ phase, a tilted hexatic not previously identified in thermotropic liquid crystals. Line defects which form additional domain walls in the hexatic lattice lead to characteristic modulations of the basic one-dimensional stripe pattern. Inside thick circular islands, for example, stripes form circumferentially and the lines form centered 12-armed stars, res…

Condensed Matter::Soft Condensed MatterLine defectsMaterials scienceCondensed matter physicsLiquid crystalCondensed Matter::SuperconductivityLattice (order)MicroscopySymmetry breakingChiral symmetry breakingHexatic phaseThermotropic crystalPhysical Review E
researchProduct