Search results for "atomic physics"

showing 10 items of 5530 documents

Dynamics of ground and excited state chlorophylla molecules in pyridine solution probed by femtosecond transient absorption spectroscopy

1999

Abstract Femtosecond pump–probe spectroscopy was used to investigate the ground and excited state dynamics of chlorophyll  a (Chl  a ) in pyridine following excitation by a 100 fs optical pulse. The transient absorption spectrum and kinetics reveal spectral evolution on two ultrafast time scales: ∼100 fs and ∼3 ps. We attribute these dynamics to ground-state transient hole-burning and solvation dynamics. Transient absorption anisotropy at early times (∼500 fs) was measured for Chl  a in pyridine and shows a pronounced wavelength dependence, where anisotropy varies between 0 and 0.5. Strong contribution from excited state absorption is the origin of the variation.

ChemistrySolvationGeneral Physics and Astronomy02 engineering and technology010402 general chemistry021001 nanoscience & nanotechnology01 natural sciences0104 chemical sciencesExcited stateUltrafast laser spectroscopyFemtosecondPhysical and Theoretical ChemistryAtomic physics0210 nano-technologySpectroscopyAnisotropyUltrashort pulseExcitationChemical Physics Letters
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The surface electronic structure of stoichiometric and defective LiF surfaces studied with MIES and UPS in combination with ab-initio calculations

1997

Abstract UPS (He I) and metastable impact electron spectroscopy (MIES) spectra of the LiF(100) single crystal surface and stoichiometric LiF films are presented. The spectra are interpreted on the basis of ab-initio electronic structure calculations. Defective surfaces, produced by electron dosing, were studied in the same manner. The MIES spectra reveal that the electron dosing produces metallic patches on the surface, but no uniform Li adlayer. The calculation show that the F-center contribution to the electron emission is very close in energy to that from the metallic patches; thus, the two contributions cannot be distinguished by the present experimental techniques.

ChemistrySurfaces and InterfacesElectronElectronic structureCondensed Matter PhysicsElectron spectroscopySurfaces Coatings and FilmsCondensed Matter::Materials ScienceX-ray photoelectron spectroscopyAb initio quantum chemistry methodsMetastabilityPhysics::Atomic and Molecular ClustersMaterials ChemistryAtomic physicsSingle crystalSurface statesSurface Science
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Atomic and electronic structure of the corundum (0001) surface: comparison with surface spectroscopies

1997

Abstract The electronic structure and geometry of the Al-terminated corundum (0001) surface were studied using a slab model within the ab-initio Hartree-Fock technique. The distance between the top Al plane and the next O basal plane is found to be considerably reduced on relaxation (by 0.57 A, i.e. by 68% of the corresponding interlayer distance in the bulk). An interpretation of experimental photoelectron spectra (UPS He I) and metastable impact electron spectra (MIES) is given using the calculated total density of states of the slab and the projections to the atoms, atomic orbitals, and He 1s floating atomic orbital at different positions above the surface. Calculated projected densities…

ChemistrySurfaces and InterfacesElectronic structureCondensed Matter PhysicsElectron spectroscopySpectral lineSurfaces Coatings and FilmsAtomic orbitalX-ray photoelectron spectroscopyMetastabilityPhysics::Atomic and Molecular ClustersMaterials ChemistryDensity of statesRelaxation (physics)Physics::Atomic PhysicsAtomic physicsSurface Science
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Resonant Ionization Laser Ion Source for Radioactive Ion Beams

2009

A resonant ionization laser ion source based on all‐solid‐state, tunable Ti:Sapphire lasers is being developed for the production of pure radioactive ion beams. It consists of a hot‐cavity ion source and three pulsed Ti:Sapphire lasers operating at a 10 kHz pulse repetition rate. Spectroscopic studies are being conducted to develop ionization schemes that lead to ionizing an excited atom through an auto‐ionization or a Rydberg state for numerous elements of interest. Three‐photon resonant ionization of 12 elements has been recently demonstrated. The overall efficiency of the laser ion source measured for some of these elements ranges from 1 to 40%. The results indicate that Ti:Sapphire lase…

ChemistryTi:sapphire laserPhysics::OpticsLaserIon sourcelaw.inventionAtmospheric-pressure laser ionizationIon beam depositionlawIonizationPhysics::Atomic PhysicsAtomic physicsElectron ionizationTunable laserAIP Conference Proceedings
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Vibrational analysis of the electronic spectrum of ethylene based onab initio SCF-CI calculations

1972

Ab initio calculations for CH2 twisting and CC stretching vibrational wavefunctions and energy levels are reported for various electronic states of ethylene C2H4. Electronic transition moments between these states are also obtained to allow a calculation of the oscillator strengths for vibrational transitions involved in various electronic band systems; from this study it is concluded that thevertical electronic energy differenceΔE e may differ significantly from the energy of the absorption maximumΔE max with which it is often equated. In particular it is found in the case of theπ→π * singlet-singlet excitation of ethylene that theΔE e value overestimates the most probable vibrational tran…

ChemistryTransition dipole momentAb initioMolecular electronic transitionsymbols.namesakeAb initio quantum chemistry methodsRydberg formulasymbolsChiropracticsPhysics::Chemical PhysicsPhysical and Theoretical ChemistryAtomic physicsAbsorption (electromagnetic radiation)Wave functionExcitationTheoretica Chimica Acta
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Extension of Walsh's rules to more general systems

1972

It is demonstrated that location of hydrogen atoms within bonding distance of a simple triatomic molecule can alter the order of energy levels relative to that of the parent system without significantly changing the behavior of the orbital energies under geometrical variation. As a result the ground state electronic configurations of H n AB2 systems often differ from those of triatomics with the same number of electrons and this fact is shown to be directly responsible for the existence of such distinctive geometrical structures as those possessed by cyclopropane, cyclopropyl and allyl cations and cyclopropene. Thus the familiar prescription of Walsh's rules which states that isoelectronic …

ChemistryTriatomic moleculeWalsh diagramCyclopropenechemistry.chemical_compoundSimple (abstract algebra)Excited stateQuantum mechanicsMoleculeChiropracticsElectron configurationPhysical and Theoretical ChemistryAtomic physicsGround stateTheoretica Chimica Acta
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General occurrence of polar twisted minima in the ionic singlet excited surfaces of polyenes

1982

Except for a few cases, the lowest closed shell SCF solutions for the twisted geometries of polyenes involves delocalized nonpolarized MO’s, and represents a meaningless mixture of radicalar gound state and ionic excited states. Higher (quasi) solutions allow a realistic approach of the polarized ionic states. Orthogonality to the radicalar ground state may be imposed without important loss of energy. Further extensive CI does not modify significantly the situation. These statements are illustrated through ab initio calculations of butadiene and hexatriene. This approach allows us to show that slight distortions stablize polar minima even in ’’homosymmetric’’ molecules such as all‐trans hex…

ChemistryUNESCO::FÍSICAGeneral Physics and AstronomyIonic bondingElectronic structurePolyenesExcited StatesSelf−Consistent FieldDelocalized electronElectronic StructureAb initio quantum chemistry methods:FÍSICA [UNESCO]Polyenes ; Self−Consistent Field ; Electronic Structure ; Excited StatesExcited statePhysics::Atomic and Molecular ClustersSinglet statePhysical and Theoretical ChemistryAtomic physicsPhysics::Chemical PhysicsGround stateOpen shell
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Calculations of F centers in KNbO 3 ferroelectric crystals

1997

Semi-empirical method of the intermediate neglect of the differential overlap (INDO) combined with the supercell model is applied to the calculations of the F center optical properties in ferroelectric KNbO 3 perovskite crystals. It is shown that two electrons of the defect are weakly localized inside the O vacancy, unlike similar defects in ionic alkali halides, but are considerably spread over two nearest Nb atoms. For the orthorhombic phase stable at room temperatures three absorption bands are predicted to be at 2.72 eV, 3.04 eV and 3.11 eV, respectively. The first energy is close to the band at 2.7 eV observed in electron- irradiated crystals. In the high temperature, cubic phase only …

ChemistryVacancy defectPhase (matter)Supercell (crystal)Ionic bondingOrthorhombic crystal systemElectronAtomic physicsMolecular physicsFerroelectricityPerovskite (structure)SPIE Proceedings
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Anharmonic vibrational frequency calculations for solvated molecules in the B3LYP Kohn–Sham basis set limit

2012

Abstract The solvent dependence of harmonic and anharmonic vibrational wavenumbers of water, formaldehyde and formamide was studied using the B3LYP method. The results obtained with the hierarchy of Jensen's polarization-consistent basis sets were fitted with two-parameter formula toward the B3LYP Kohn–Sham complete basis set (CBS) limit. Anharmonic corrections have been obtained by a second order perturbation treatment (VPT2) and vibrational configuration interaction (VCI) method. The solvent environment was treated according to the self-consistent reaction field polarizable continuum model (SCRF PCM) approach.

ChemistryVibrational partition functionMolecular vibrationAnharmonicityPhysics::Atomic and Molecular ClustersKohn–Sham equationsPhysics::Chemical PhysicsSolvent effectsConfiguration interactionAtomic physicsPolarizable continuum modelSpectroscopyBasis setVibrational Spectroscopy
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Photoinduced ultrafast dye-to-semiconductor electron injection from nonthermalized and thermalized donor states.

2001

Electron injection from the transition metal complex Ru(dcbpy)(2)(NCS)(2) (dcbpy = 4,4'-dicarboxy-2,2'-bipyridine) into a titanium dioxide nanocrystalline film occurs on the femto- and picosecond time scales. Here we show that the dominating part of the electron transfer proceeds extremely rapidly from the initially populated, vibronically nonthermalized, singlet excited state, prior to electronic and nuclear relaxation of the molecule. The results are especially relevant to the understanding and design of molecular-based photovoltaic devices and artificial photosynthetic assemblies.

Chemistrybusiness.industryGeneral ChemistryElectronic structurePhotochemistryBiochemistryCatalysisNanocrystalline materialElectron transferColloid and Surface ChemistrySemiconductorTransition metalPicosecondExcited stateSinglet stateAtomic physicsbusinessJournal of the American Chemical Society
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