Search results for "Localized molecular orbitals"

showing 6 items of 6 documents

Efficient Linear-Scaling Density Functional Theory for Molecular Systems

2013

Despite recent progress in linear scaling (LS) density function theory (DFT), the computational cost of the existing LS methods remains too high for a widespread adoption at present. In this work, we exploit nonorthogonal localized molecular orbitals to develop a series of LS methods for molecular systems with a low computational overhead. High efficiency of the proposed methods is achieved with a new robust two-stage variational procedure or by replacing the optimization altogether with an accurate nonself-consistent approach. We demonstrate that, even for challenging condensed-phase systems, the implemented LS methods are capable of extending the range of accurate DFT simulations to molec…

10120 Department of ChemistryWork (thermodynamics)Mathematical optimization010304 chemical physicsSeries (mathematics)Computer scienceLocalized molecular orbitalsMolecular systems01 natural sciencesComputer Science ApplicationsRange (mathematics)0103 physical sciences540 ChemistryLinear scale1706 Computer Science ApplicationsDensity functional theoryPhysical and Theoretical Chemistry010306 general physics1606 Physical and Theoretical ChemistryAlgorithmOrder of magnitude
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Microscopic properties of liquid water from combined ab initio molecular dynamics and energy decomposition studies

2013

The application of newly developed first-principle modeling techniques to liquid water deepens our understanding of the microscopic origins of its unusual macroscopic properties and behaviour. Here, we review two novel ab initio computational methods: second-generation Car-Parrinello molecular dynamics and decomposition analysis based on absolutely localized molecular orbitals. We show that these two methods in combination not only enable ab initio molecular dynamics simulations on previously inaccessible time and length scales, but also provide unprecedented insights into the nature of hydrogen bonding between water molecules. We discuss recent applications of these methods to water cluste…

Materials science010304 chemical physicsHydrogen bondLiquid waterAb initioGeneral Physics and AstronomyLocalized molecular orbitals010402 general chemistry01 natural sciencesDecomposition0104 chemical sciencesAb initio molecular dynamicsMolecular dynamics13. Climate actionChemical physics0103 physical sciencesMoleculePhysical and Theoretical ChemistryPhysical Chemistry Chemical Physics
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Localized molecular orbitals for excited states of polyenals, polyendials, and polyenones

2003

The work is focused on the generation of localized molecular orbitals for excited states. A recently developed a priori method based in a CAS-SCF–type algorithm is applied. The method generates directly localized orbitals and can be applied to multireference wavefunctions. A detailed description of the performance of the method as well as the locality of the MOs for the example of the singlet nπ* (CO) excited state is given. It is in general possible to obtain local orbitals for the doubly occupied and virtual valence orbitals. The partial delocalization of the π* (CO) orbital is discussed, as is the effect of the use of different CAS spaces. The systems under study are polyenals, polyendia…

ChemistryMolecular orbital theoryLocalized molecular orbitalsCondensed Matter PhysicsAtomic and Molecular Physics and OpticsSlater-type orbitalLinear combination of atomic orbitalsMolecular orbitalValence bond theoryComplete active spacePhysics::Chemical PhysicsPhysical and Theoretical ChemistryAtomic physicsNatural bond orbitalInternational Journal of Quantum Chemistry
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Self‐consistent intermediate Hamiltonians : A coupled cluster type formulation of the singles and doubles configuration interaction matrix dressing

1995

This paper presents a new self‐consistent dressing of a singles and doubles configuration interaction matrix which insures size‐consistency, separability into closed‐shell subsystems if localized molecular orbitals (MOs) are used, and which includes all fourth order corrections. This method yields, among several schemes, a reformulation of the coupled cluster method, including fully the cluster operators of single and double excitations, and partially those of the triples (Bartlett’s algorithm named CCSDT‐1a). Further improvement can be easily included by adding exclusion principle violating corrections. Since it leads to a matrix diagonalization, the method behaves correctly in case of nea…

PhysicsHamiltoniansDiagonalizable matrixGeneral Physics and AstronomyLocalized molecular orbitalsConfiguration interactionMany−Body ProblemUNESCO::FÍSICA::Química físicaMany-body problemSelf−Consistent FieldConfiguration Interactionsymbols.namesakeMatrix (mathematics)Pauli exclusion principleCoupled clusterHamiltonians ; Self−Consistent Field ; Many−Body Problem ; Perturbation Theory ; Configuration Interaction ; AlgorithmsQuantum mechanicssymbolsPerturbation TheoryPerturbation theory (quantum mechanics)Physical and Theoretical Chemistry:FÍSICA::Química física [UNESCO]Algorithms
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An ab initio study of the unimolecular decomposition mechanism of formamidine. 4-31G Characterization of potential energy hypersurface

1991

Ab initio MO calculations have been carried out for the unimolecular decomposition of formamidine. The Hartree–Fock method in LCAO approximation with the 4-31G basis set was used. The 4-31G potential hypersurface has been further studied. The stationary points (R, TS, and P) were localized. A reaction analysis by correlation of bond-order indices and localized molecular orbitals demonstrated that the decomposition is an asynchronous process. The TS can be described as four-membered ring.

HypersurfaceLinear combination of atomic orbitalsChemistryComputational chemistryAb initioLocalized molecular orbitalsPhysical and Theoretical ChemistryCondensed Matter PhysicsRing (chemistry)Stationary pointDecompositionAtomic and Molecular Physics and OpticsBasis setInternational Journal of Quantum Chemistry
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Multistate active spaces from local CAS-SCF molecular orbitals: the photodissociation of HFCO as an example.

2005

A recently developed algorithm to generate localized molecular orbitals (LMO) is applied to the study of excited states along a photodissociation process. The LMOs allow for the selection of a consistent complete active space (CAS) for the simultaneous description of all the electronic states involved in a multistate process on the basis of simple chemical criteria. The local nature of the orbitals is used to label them in a unique way that does not depend on the molecular geometry. The selection of the electronic configurations of interest for the set of target states on only the basis of the dominant excitations required by the simplest configuration interaction (CI) descriptions for both…

Computational MathematicsBasis (linear algebra)ChemistryQuantum mechanicsExcited stateMolecular orbitalGeneral ChemistryComplete active spaceLocalized molecular orbitalsElectron configurationConfiguration interactionAtomic physicsPotential energyJournal of computational chemistry
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