Search results for "Molecular configurations"

showing 6 items of 6 documents

A theory ofnonverticaltriplet energy transfer in terms of accurate potential energy surfaces: The transfer reaction from π,π* triplet donors to 1,3,5…

2004

Triplet energy transfer (TET) from aromatic donors to 1,3,5,7-cyclooctatetraene (COT) is an extreme case of "nonvertical" behavior, where the transfer rate for low-energy donors is considerably faster than that predicted for a thermally activated (Arrhenius) process. To explain the anomalous TET of COT and other molecules, a new theoretical model based on transition state theory for nonadiabatic processes is proposed here, which makes use of the adiabatic potential energy surfaces (PES) of reactants and products, as computed from high-level quantum mechanical methods, and a nonadiabatic transfer rate constant. It is shown that the rate of transfer depends on a geometrical distortion paramet…

Arrhenius equationGeneral Physics and AstronomyTriplet stateMolecular configurationsAcceptorPotential energyGround statesUNESCO::FÍSICA::Química físicaCyclooctatetraenechemistry.chemical_compoundsymbols.namesakeTransition state theoryOrganic compounds ; Potential energy surfaces ; Triplet state ; Ground states ; Molecular configurationschemistryPotential energy surfacesOrganic compoundssymbolsMoleculePhysics::Chemical PhysicsPhysical and Theoretical ChemistryTriplet stateAtomic physics:FÍSICA::Química física [UNESCO]Adiabatic processThe Journal of Chemical Physics
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Full configuration interaction calculation of singlet excited states of Be3

2004

The full configuration interaction (FCI) study of the singlets vertical spectrum of the neutral beryllium trimer has been performed using atomic natural orbitals [3s2p1d] basis set. The FCI triangular equilibrium structure of the ground state has been used to calculate the FCI vertical excitation energies up to 4.8 eV. The FCI vertical ionization potential for the same geometry and basis set amounts to 7.6292 eV. The FCI dipole and quadrupole transition moments from the ground state are reported as well. The FCI electric quadrupole moment of the X (3)A(1) (') ground state has been also calculated with the same basis set (Theta(zz)=-2.6461 a.u., Theta(xx)=Theta(yy)=-1/2Theta(zz)). Twelve of …

Atomic clustersElectron correlationsIonisation potentialGeneral Physics and AstronomyFull configuration interactionBeryllium ; Configuration interactions ; Excited states ; Orbital calculations ; Ground states ; Ionisation potential ; Molecular configurations ; Transition moments ; Quadrupole moments ; Molecular moments ; Electron correlations ; Atomic clustersPhysical and Theoretical Chemistry:FÍSICA::Química física [UNESCO]Basis setElectronic correlationChemistryConfiguration interactionsExcited statesPhysics::Physics EducationMolecular configurationsTransition momentsUNESCO::FÍSICA::Química físicaOrbital calculationsGround statesDipoleExcited stateQuadrupoleQuadrupole momentsMolecular momentsBerylliumAtomic physicsIonization energyGround stateThe Journal of Chemical Physics
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Magic numbers, excitation levels, and other properties of small neutral math clusters (N < 50)

2006

The ground-state energies and the radial and pair distribution functions of neutral math clusters are systematically calculated by the diffusion Monte Carlo method in steps of one math atom from 3 to 50 atoms. In addition the chemical potential and the low-lying excitation levels of each cluster are determined with high precision. These calculations reveal that the “magic numbers” observed in experimental math cluster size distributions, measured for free jet gas expansions by nondestructive matter-wave diffraction, are not caused by enhanced stabilities. Instead they are explained in terms of an enhanced growth due to sharp peaks in the equilibrium concentrations in the early part of the e…

DiffusionHelium neutral atoms ; Atomic clusters ; Ground states ; Excited states ; Chemical potential ; Diffusion ; Monte Carlo methods ; Molecular configurationsHelium neutral atomsAtomic clustersExcited statesMonte Carlo methods:FÍSICA::Química física [UNESCO]Chemical potentialMolecular configurationsGround statesUNESCO::FÍSICA::Química física
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Excited states of the water molecule: Analysis of the valence and Rydberg character

2008

The excited states of the water molecule have been analyzed by using the extended quantum-chemical multistate CASPT2 method, namely, MS-CASPT2, in conjunction with large one-electron basis sets of atomic natural orbital type. The study includes 13 singlet and triplet excited states, both valence and 3s-, 3p-, and 3d-members of the Rydberg series converging to the lowest ionization potential and the 3s- and 3p-Rydberg members converging to the second low-lying state of the cation, 1 math. The research has been focused on the analysis of the valence or Rydberg character of the low-lying states. The computation of the 1 math state of water at different geometries indicates that it has a predom…

General Physics and AstronomyElectronssymbols.namesakeAb initio quantum chemistry methodsMoleculePhysics::Atomic PhysicsSinglet statePhysical and Theoretical Chemistry:FÍSICA::Química física [UNESCO]Valence (chemistry)ChemistryAb initio calculations ; Molecular configurations ; Orbital calculations ; Quantum chemistry ; Rydberg states ; SCF calculations ; Valency ; WaterValencyWaterRydberg statesMolecular configurationsUNESCO::FÍSICA::Química físicaOrbital calculationsExcited stateRydberg atomRydberg formulasymbolsQuantum TheorySCF calculationsAb initio calculationsIonization energyAtomic physicsQuantum chemistryAlgorithmsThe Journal of Chemical Physics
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Lower Rydberg series of methane: a combined coupled cluster linear response and molecular quantum defect orbital calculation.

2006

Vertical excitation energies as well as related absolute photoabsorption oscillator strength data are very scarce in the literature for methane. In this study, we have characterized the three existing series of low-lying Rydberg states of CH4 by computing coupled cluster linear response (CCLR) vertical excitation energies together with oscillator strengths in the molecular-adapted quantum defect orbital formalism from a distorted Cs geometry selected on the basis of outer valence green function calculations. The present work provides a wide range of data of excitation energies and absolute oscillator strengths which correspond to the Rydberg series converging to the three lower ionization p…

Oscillator strengthIonisation potentialGeneral Physics and AstronomyOrganic compounds ; Rydberg states ; Coupled cluster calculations ; Orbital calculations ; Oscillator strengths ; Photoexcitation ; Molecule-photon collisions ; Molecular configurations ; Ionisation potentialsymbols.namesakeQuantum defectCoupled cluster calculationsOrganic compoundsOscillator strengthsPhysical and Theoretical Chemistry:FÍSICA::Química física [UNESCO]PhotoexcitationPhysicsMolecule-photon collisionsValence (chemistry)Rydberg statesMolecular configurationsOrbital calculationsUNESCO::FÍSICA::Química físicaPhotoexcitationCoupled clusterRydberg formulasymbolsIonization energyAtomic physicsExcitationThe Journal of chemical physics
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Crystal structure determination of 1-pentanol from low-temperature powder diffraction data by Patterson search methods

2005

5 pages.-- PACS: 61.66.Hq; 61.50.Lt

RadiationChemistryHydrogen bondNeutron diffractionLattice constantsSpace groupCrystal structureCondensed Matter PhysicsMolecular configurationsX-ray diffractionHydrogen bondsCrystallographyLattice constantOrganic compoundsCrystal structuresX-ray crystallographySpace groupsGeneral Materials ScienceInstrumentationPowder diffractionMonoclinic crystal systemPowder Diffraction
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