Search results for "Crystal system"

showing 10 items of 13557 documents

Ordering of fluorite-type phases in erbium-doped oxyfluoride glass ceramics

2018

In this study, novel transparent Er3+ doped glass ceramics were prepared from melt-quenched oxyfluoride glasses with general composition of Na2O-NaF-BaF2-YbF3-Al2O3-SiO2. The crystallization of fluorite (BaF2, BaF2-YbF3, NaF-BaF2-YbF3 and Na0.5-xYb0.5+xF2+2x) and distorted fluorite (rhombohedral Ba4Yb3F17 and tetragonal NaF-BaF2-YbF3) phases was analysed in glass ceramics with different BaF2 and YbF3 ratio. The phase composition and microstructure were investigated by X-ray diffraction (XRD) and scanning electron microscopy (SEM). Intense red upconversion luminescence (UCL) was detected under near-infrared excitation resulting from three photon upconversion followed by cross-relaxation betw…

Materials scienceBa4Yb3F17Scanning electron microscopeGlass ceramicsNucleationMineralogy02 engineering and technology010402 general chemistry01 natural sciencesFluoritelaw.inventionTetragonal crystal systemlaw:NATURAL SCIENCES:Physics [Research Subject Categories]Materials ChemistryCrystallizationPhase transitionSite-selective spectroscopyDoping021001 nanoscience & nanotechnologyMicrostructurePhoton upconversion0104 chemical sciencesCrystallographyCeramics and Composites0210 nano-technologyUpconversionJournal of the European Ceramic Society
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Small radius electron and hole polarons in PbX2 (X = F, Cl, Br) crystals: a computational study

2021

First-principles hybrid density functional theory (DFT) calculations were performed for small radius polarons – self-trapped electrons (STELs) and holes (STHs) in PbX2 (X = F, Cl, Br) crystals, widely used as parent materials for inorganic halide perovskites (CsPbX3) and scintillators. The atomic and electronic structures, spin and charge distributions and formation energies for both types of polarons were predicted for orthorhombic PbF2 and STELs for cubic PbF2. The STH structure was identified in a controversial case of PbCl2. We also confirmed and analyzed in detail experimentally suggested configurations for other cases. It is shown how, due to a delicate balance of ionic and covalent c…

Materials scienceBand gapIonic bondingGeneral ChemistryElectronPolaronMolecular physicsIonChemical bondPhysics::Atomic and Molecular ClustersMaterials ChemistryCondensed Matter::Strongly Correlated ElectronsDensity functional theoryOrthorhombic crystal systemPhysics::Chemical PhysicsJournal of Materials Chemistry C
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Melting and Freezing Lines for a Mixture of Charged Colloidal Spheres with Spindle-Type Phase Diagram

2010

We have measured the phase behavior of a binary mixture of like-charged colloidal spheres with a size ratio of 0.9 and a charge ratio of 0.96 as a function of particle number density n and composition p. Under exhaustively deionized conditions the aqueous suspension forms solid solutions of body centered cubic structure for all compositions. The freezing and melting lines as a function of composition show opposite behavior and open a wide, spindle shaped coexistence region. Lacking more sophisticated treatments, we model the interaction in our mixtures as an effective one-component pair energy accounting for number weighted effective charge and screening constant. Using this description, we…

Materials scienceComponent (thermodynamics)Surface PropertiesYukawa potentialGeneral Physics and AstronomyThermodynamicsFOS: Physical sciencesWaterCubic crystal systemCondensed Matter - Soft Condensed MatterEffective nuclear chargePhase TransitionCondensed Matter::Soft Condensed MatterCondensed Matter - Other Condensed MatterPhase (matter)FreezingMelting pointSoft Condensed Matter (cond-mat.soft)PolystyrenesColloidsPhysical and Theoretical ChemistryParticle SizePhase diagramSolid solutionOther Condensed Matter (cond-mat.other)
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On the Ground State Structure of Adsorbed Monolayers: Can One Find them by Monte Carlo Simulation?

2002

While the classical ground state structure of an atomic monolayer adsorbed at a noncorrugated perfectly flat substrate trivially is a triangular lattice, the spacing being the minimum of the interatomic potential, nontrivial structures occur on corrugated substrates. This problem is exemplified for the (100) face of a face-centered cubic crystal, varying both the density of the adsorbed monolayer and the strength of the potential due to the surface. Increasing the density beyond that of the commensurate c(2 x 2) structure, incommensurate patterns become stable with “heavy” walls (HW) oriented along the face diagonals [including the “crossing heavy walls” (CRHW) phase]. It is shown that slow…

Materials scienceComputational chemistryMetastabilityMonolayerMonte Carlo methodDynamic Monte Carlo methodInteratomic potentialHexagonal latticeCubic crystal systemGround stateMolecular physics
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Acoustic vibrations of anisotropic nanoparticles

2009

Acoustic vibrations of nanoparticles made of materials with anisotropic elasticity and nanoparticles with non-spherical shapes are theoretically investigated using a homogeneous continuum model. Cubic, hexagonal and tetragonal symmetries of the elasticity are discussed, as are spheroidal, cuboctahedral and truncated cuboctahedral shapes. Tools are described to classify the different vibrations and for example help identify the modes having a significant low-frequency Raman scattering cross-section. Continuous evolutions of the modes starting from those of an isotropic sphere coupled with the determination of the irreducible representation of the branches permit some qualitative statements t…

Materials scienceCondensed Matter - Mesoscale and Nanoscale PhysicsIsotropyFOS: Physical sciencesNanoparticleAnisotropic nanoparticles02 engineering and technology[ PHYS.COND.CM-GEN ] Physics [physics]/Condensed Matter [cond-mat]/Other [cond-mat.other]021001 nanoscience & nanotechnologyCondensed Matter Physics01 natural sciencesElectronic Optical and Magnetic MaterialsVibrationTetragonal crystal systemClassical mechanics[PHYS.COND.CM-GEN]Physics [physics]/Condensed Matter [cond-mat]/Other [cond-mat.other]Irreducible representationMesoscale and Nanoscale Physics (cond-mat.mes-hall)0103 physical sciencesHomogeneous spaceElasticity (economics)010306 general physics0210 nano-technology
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Tight-Binding study of the electronic and magnetic properties of an L1_0 ordered FeCu alloy

1997

We have calculated the electronic structure of the tetragonal L1$_0$ ordered FeCu by solving self-consistently a tight-binding Hamiltonian for s, p and d electrons. We have found by total energy calculation that this structure is ferromagnetic. In addition, we have determined that the equilibrium ratio between the interlayer and the intralayer lattice parameters is 0.947.

Materials scienceCondensed matter physicsAlloyCondensed Matter (cond-mat)General Physics and AstronomyFOS: Physical sciencesElectronElectronic structureCondensed Matterengineering.materialsymbols.namesakeTetragonal crystal systemCondensed Matter::Materials ScienceTight bindingFerromagnetismLattice (order)Condensed Matter::SuperconductivitysymbolsengineeringCondensed Matter::Strongly Correlated ElectronsHamiltonian (quantum mechanics)
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First-principles study of the electronic structure of cubicGaS: Metallic versus insulating polymorphs

2007

The electronic structure of different polymorphs of gallium sulphide $(\mathrm{GaS})$ with cubic structure is investigated by means of first-principles band structure calculations in connection with experimental reports on a metastable semiconducting cubic form of this material. The expected metallic character of simple cubic phases containing one $\mathrm{GaS}$ group per unit cell (rocksalt or zinc-blende) is confirmed by the calculations. A cubane-based zinc-blende structure is found to exhibit a band gap which is compatible with experimental results but the unit cell parameter is much larger than the reported ones. We have also studied cubic phases containing hydrogen. It is found that t…

Materials scienceCondensed matter physicsBand gapElectronic structureCubic crystal systemCondensed Matter PhysicsElectronic Optical and Magnetic Materialschemistry.chemical_compoundchemistryCubanePhase (matter)MetastabilityCubic formElectronic band structurePhysical Review B
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The difference of crystal fields in ErAl2 and La0.9Er0.1Al2

1978

Abstract Inelastic neutron scattering experiments have been carried out on polycrystalline ErAl2 and on the related pseudobinary compound La0.9Er0.1Al2 in the paramagnetic phase. For ErAl2 the parameters of the cubic crystal field could uniquely be determined as x=+0.16 and W=−0.030 meV. The results on the dilute sample are different from this and are thought to be due effective charges of Er and La being not equivalent.

Materials scienceCondensed matter physicsField (physics)General ChemistryCubic crystal systemCondensed Matter PhysicsInelastic neutron scatteringCrystalCondensed Matter::Materials ScienceCrystallographyParamagnetismPhase (matter)Materials ChemistryHigh Energy Physics::ExperimentCondensed Matter::Strongly Correlated ElectronsCrystalliteSolid State Communications
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Band convergence in the non-cubic chalcopyrite compounds Cu_2MGeSe_4

2014

Inspired by recent theoretical predictions on band convergence in the tetragonal chalcopyrite compounds, we have explored the influence of the crystal structure on the transport and bandstructure of different quaternary chalcopyrites. In theory, a changing lattice parameter ratio of c/2a towards unity should lead to band convergence due to a more cubic and higher symmetry structure. In accordance with this prediction, the different solid solutions explored in this manuscript show a significant impact on the electronic transport depending on the ratio of the lattice parameters. An increasing lattice parameter ratio results in an increase of the carrier effective masses which can be explained…

Materials scienceCondensed matter physicsGeneral ChemistryCrystal structureCritical valueTetragonal crystal systemCrystallographyCondensed Matter::Materials ScienceLattice constantLattice (order)Materials ChemistryDensity functional theoryElectronic band structureSolid solution
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Monte Carlo Simulations of Body Centered Cubic Alloys

1994

We illustrate the use of Monte Carlo simulations in the study of order-disorder phenomena in metallic alloys by presenting detailed work on a fairly realistic lattice model for iron aluminum. The model has been constructed based on recent measurements of effective interaction parameters and includes a description of the magnetism of iron within a Heisenberg Hamiltonian. We show that it reproduces the bulk phase diagram in a qualitatively correct way. Then internal antiphase boundaries and free surfaces in the (100)-direction are studied. An interfacial roughening transition is predicted as well as critical broadening of the profiles as the bulk approaches a second order transition. Nonstoec…

Materials scienceCondensed matter physicsMagnetismMonte Carlo methodchemistry.chemical_elementCubic crystal systemMetallic alloysymbols.namesakechemistrySurface fieldAluminiumsymbolsHamiltonian (quantum mechanics)Phase diagram
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