Search results for "DIPOLE"

showing 10 items of 982 documents

Atomistic Simulations of the LaMnO3 (110) Polar Surface.

2003

The results of atomic structure calculations, with a focus on the surface relaxation and polarization, are presented for the LaMnO3 (110) O-terminated polar surface. We compare results of the classical shell model calculations for four possible terminations, including (1 × 2) (110) surface reconstruction, and demonstrate that the latter has the lowest surface energy. The surface energy is saturated only when six to eight near-surface atomic planes are relaxed which is accompanied by the considerable dipole moments perpendicular to the surface. Results are compared with those for iso-structural BaTiO3 (110) surfaces.

Surface (mathematics)ChemistrySHELL modelRelaxation (NMR)General Physics and AstronomyGeneral MedicinePolarization (waves)Molecular physicsSurface energyCrystallographyDipoleAb initio quantum chemistry methodsPerpendicularPolarPhysical and Theoretical ChemistrySurface reconstructionChemInform
researchProduct

ATOMISTIC CALCULATIONS OF (110) SURFACE RELAXATION FOR PEROVSKITE TITANATES

1999

Using a shell model, for the first time the (110) surface relaxations are calculated for SrTiO 3 and BaTiO 3 perovskites. The positions of atoms in 16 near-surface layers placed atop a slab of rigid ions are calculated. Strong surface rumpling and surface-induced dipole moments perpendicular to the surface are predicted for both the O-terminated and Ti-terminated surfaces.

Surface (mathematics)Condensed matter physicsChemistrySHELL modelRelaxation (NMR)Surfaces and InterfacesCondensed Matter PhysicsSurfaces Coatings and FilmsIonDipoleMaterials ChemistrySlabPerpendicularPerovskite (structure)Surface Review and Letters
researchProduct

Atomistic simulation of surface relaxation

1998

The (001) surface relaxation of the cubic perovskite crystal has been studied using the shell model. The positions of atoms in several surface layers embedded in the electrostatic field of the remainder of the crystal are calculated. We show that , and ions in six near-surface layers are displaced differently from their crystalline sites which leads to the creation of so-called surface rumpling, a dipole moment, and an electric field in the near-surface region. Calculated atomic displacements are compared with LEED experimental data.

Surface (mathematics)CrystalDipoleChemistryElectric fieldMoment (physics)Relaxation (physics)General Materials ScienceAtomic physicsCondensed Matter PhysicsMolecular physicsPerovskite (structure)IonJournal of Physics: Condensed Matter
researchProduct

Calculations of Surface Structure for SrTiO3 Perovskite

2001

ABSTRACTWe present and discuss results of the calculations for SrTiO3 (100) surface relaxation with different terminations (SrO and TiO2) using a semi-empirical shell model (SM) as well as abinitio methods based on Hartree-Fock (HF) and Density Functional Theory (DFT) formalisms. Using the SM, the positions of atoms in 16 near-surface layers placed atop a slab of rigid ions are optimized. This permits us determination of surface rumpling and surfaceinduced dipole moments (polarization) for different terminations. We also compare results of the ab initio calculations based on both HF with the DFT-type electroncorrelation corrections, several DFT with different exchange-correlation functional…

Surface (mathematics)DipoleMaterials scienceAb initio quantum chemistry methodsRelaxation (NMR)Density functional theoryPolarization (electrochemistry)Molecular physicsPerovskite (structure)IonMRS Proceedings
researchProduct

Ab initiocalculations of theSrTiO3(110) polar surface

2004

Results of ab initio Hartree-Fock calculations for the SrTiO3 ~110! polar surface are discussed. We have calculated the surface energies, near-surface atomic displacements for four possible terminations ~TiO, Sr, and two kinds of O terminations! as well as Mulliken atomic charges and dipole moments of atoms characterizing their polarization, and the atomic bond populations. We predict a considerable increase of the TiuO chemical bond covalency near the ~110! surface, as compared to both the bulk and the ~100! surface. The O-terminated ~110! surface has surface energy close to that for ~100!, which indicates that both ~110! and ~100! SrTiO3 surfaces can coexist in polycrystals and perovskite…

Surface (mathematics)Materials scienceAb initioCondensed Matter PhysicsPolarization (waves)Surface energyElectronic Optical and Magnetic MaterialsCondensed Matter::Materials ScienceDipoleChemical bondAb initio quantum chemistry methodsPhysics::Atomic PhysicsAtomic physicsPerovskite (structure)Physical Review B
researchProduct

Computer Modeling of Defects and Surfaces in Advanced Perovskite Ferroelectrics

2000

The (110) surface relaxations are calculated for SrTiO3 and BaTiO3 perovskites. The positions of atoms in 16 near-surface layers placed atop a slab of rigid ions are optimized. Strong surface rumpling and surface-induced dipole moments perpendicular to the surface are predicted for both the O-terminated and Ti-terminated surfaces. Calculated optical properties of basic point defects – F-type centres and hole polarons – in KNbO3 are used for the interpretation of available experimental data.

Surface (mathematics)Materials scienceCondensed matter physicsGeneral EngineeringGeneral Physics and AstronomyPolaronCrystallographic defectIonCondensed Matter::Materials ScienceDipoleComputational chemistrySlabPerpendicularPerovskite (structure)Japanese Journal of Applied Physics
researchProduct

Theoretical Simulations of Surface Relaxation for Perovskite Titanates

2000

The (100) and (110) surface relaxations are calculated for SrTiO3 and BaTiO3 perovskite thin films Using a semiempirical shell model, the positions of atoms in 16 near-surface layers placed atop a slab of rigid ions are calculated. Surface rumpling and surface-induced dipole moments perpendicular to the surface are calculated for different surface terminations. Surface relaxation is found much larger for the (110) surface. Our results for the (100) surfaces are compared with ab initio calculations and LEED experiments.

Surface (mathematics)Materials scienceMolecular physicsIonCondensed Matter::Materials Sciencechemistry.chemical_compoundDipolechemistryComputational chemistryAb initio quantum chemistry methodsStrontium titanateRelaxation (physics)Thin filmPerovskite (structure)
researchProduct

MUSIC-characterization of small scatterers for normal measurement data

2009

We investigate the reconstruction of the positions of a collection of small metallic objects buried beneath the ground from measurements of the vertical component of scattered fields corresponding to vertically polarized dipole excitations on a horizontal two-dimensional measurement device above the surface of the ground. A MUSIC reconstruction method for this problem has recently been proposed by Iakovleva et al (2007 IEEE Trans. Antennas Propag. 55 2598). In this paper, we give a rigorous theoretical justification of this method. To that end we prove a characterization of the positions of the scatterers in terms of the measurement data, applying an asymptotic analysis of the scattered fie…

Surface (mathematics)PhysicsAsymptotic analysisbusiness.industryApplied MathematicsInverse problemReconstruction methodComputer Science ApplicationsTheoretical Computer ScienceComputational physicsCharacterization (materials science)DipoleOpticsPosition (vector)Signal ProcessingbusinessMathematical PhysicsExcitationInverse Problems
researchProduct

A molecular dynamics study of large-scale reversible aggregation of anisotropic particles

1992

We report findings of 1000 ps molecular dynamics simulations of a bidimensional system of 4050 Lennard–Jones particles with electric dipoles, undergoing spinodal separation. This simple system is used to model the reversible aggregation of building blocks bearing specific and fixed adhesion sites at their surface. Aggregation regions so obtained resemble images of self-assembled biological structures. Statistical analyses of these regions evidence the interplay of thermodynamic instability and of interaction range between the attachment sites. They also illustrate some basic aspects of the morphogenesis of extended biomolecular/cellular structures, self-organized from initially homogeneous …

Surface (mathematics)SpinodalScale (ratio)ChemistryStereochemistryAdhesionCondensed Matter PhysicsInstabilityAtomic and Molecular Physics and OpticsElectric dipole momentMolecular dynamicsChemical physicsAnisotropic particlesPhysical and Theoretical ChemistryInternational Journal of Quantum Chemistry
researchProduct

[001] Surface Structure in SrTiO3 — Atomistic Study

1998

Thin superconducting films attract great attention as a promising material for plenty of applications. The surface determines most of the physical properties of these films. We studied the polarization effect for the [001] surface of perovskite ABO 3 superconducting crystals on the example of SrTiO 3. Optimization of the ion positions in several surface layers is provided. These ions are placed in the external field of the rest crystal. The interaction between ions is described by means of the shell model technique. We show that Ti +4, Sr 2+ and O -2 ions displace differently from their crystalline sites, which leads to the creation of a dipole moment in the near-surface region.

Surface (mathematics)SuperconductivityMaterials scienceCondensed matter physicsSurfaces and InterfacesCondensed Matter PhysicsSurfaces Coatings and FilmsIonCrystalDipoleMoment (physics)Materials ChemistryAtomic physicsPolarization (electrochemistry)Perovskite (structure)Surface Review and Letters
researchProduct