Search results for "GENERALIZED GRADIENT APPROXIMATION"

showing 3 items of 3 documents

Space partitioning of exchange-correlation functionals with the projector augmented-wave method

2018

We implement a Becke fuzzy cells type space partitioning scheme for the purposes of exchange-correlation within the GPAW projector augmented-wave method based density functional theory code. Space partitioning is needed in the situation where one needs to treat different parts of a combined system with different exchange-correlation functionals. For example, bulk and surface regions of a system could be treated with functionals that are specifically designed to capture the distinct physics of those regions. Here, we use the space partitioning scheme to implement the quasi-nonuniform exchange-correlation scheme, which is a useful practical approach for calculating metallic alloys on the gene…

Surface (mathematics)Correctnessprojector augmented wave methodFOS: Physical sciencesGeneral Physics and Astronomy010402 general chemistry01 natural sciencesFuzzy logiclaw.inventionSet (abstract data type)alloyslaw0103 physical sciencesmetalliseoksetPhysical and Theoretical ChemistrySpace partitioningta116density functional theoryPhysicsCondensed Matter - Materials Scienceta114010304 chemical physicsgeneralized gradient approximationsPartitions (building)tiheysfunktionaaliteoriaMaterials Science (cond-mat.mtrl-sci)0104 chemical sciencesexchange correlation functionalsProjectorVoronoi diagramsDensity functional theoryProjector augmented wave methodDensity functional theoryapproksimointiAlgorithmThe Journal of Chemical Physics
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Octopus, a computational framework for exploring light-driven phenomena and quantum dynamics in extended and finite systems

2020

Over the last few years, extraordinary advances in experimental and theoretical tools have allowed us to monitor and control matter at short time and atomic scales with a high degree of precision. An appealing and challenging route toward engineering materials with tailored properties is to find ways to design or selectively manipulate materials, especially at the quantum level. To this end, having a state-of-the-art ab initio computer simulation tool that enables a reliable and accurate simulation of light-induced changes in the physical and chemical properties of complex systems is of utmost importance. The first principles real-space-based Octopus project was born with that idea in mind,…

spectroscopyPhotonelectronic-structure calculationsComputer sciencespectraQuantum dynamicsmolecular-dynamicsComplex systemGeneral Physics and AstronomyFOS: Physical sciences010402 general chemistryspin01 natural sciencesSettore FIS/03 - Fisica Della MateriaEngineeringTDDFTreal-space0103 physical sciencesoctopusgeneralized gradient approximationPhysical and Theoretical Chemistrydensity-functional theoryMassively parallelQuantumChemical Physicsreal time010304 chemical physicsComputational Physics (physics.comp-ph)scientific software0104 chemical sciencestotal-energy calculationsphysics.comp-phPhysical SciencesChemical Sciencespolarizable continuum modelState of matterSystems engineeringLight drivenDensity functional theoryPhysics - Computational Physics
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Ab initio studies on the lattice thermal conductivity of silicon clathrate frameworks II and VIII

2016

The lattice thermal conductivities of silicon clathrate frameworks II and VIII are investigated by using ab initio lattice dynamics and iterative solution of the linearized Boltzmann transport equation(BTE) for phonons. Within the temperature range 100-350 K, the clathrate structures II and VIII were found to have lower lattice thermal conductivity values than silicon diamond structure (d-Si) by factors of 1/2 and 1/5, respectively. The main reason for the lower lattice thermal conductivity of the clathrate structure II in comparison to d-Si was found to be the harmonic phonon spectra, while in the case of the clathrate structure VIII, the difference is mainly due to the harmonic phonon spe…

Materials scienceSiliconPhononClathrate hydrateAb initioSOLIDSchemistry.chemical_elementFOS: Physical sciences02 engineering and technology01 natural sciencesSEMICONDUCTORSLOW TEMPERATURESCondensed Matter::Materials Sciencesilicon clathrate frameworks0103 physical sciencesEQUATIONDiamond cubicSIPHONON DISPERSIONS010306 general physicsta116Condensed Matter - Materials ScienceCondensed matter physicsta114CRYSTALAnharmonicitylattice thermal conductivityMaterials Science (cond-mat.mtrl-sci)Atmospheric temperature range021001 nanoscience & nanotechnologyBoltzmann equationGENERALIZED GRADIENT APPROXIMATIONMODELchemistry0210 nano-technology
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