Electron correlation dynamics in atoms and molecules

Electron correlation dynamics in atoms and molecules

In this paper, we present quantum dynamical calculations on electron correlation dynamics in atoms and molecules using explicitly time-dependent ab initio configuration interaction theory. The goals are (i) to show that in which cases it is possible to switch off the electronic correlation by ultras...

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Veröffentlicht in:The Journal of chemical physics 2013-04, Vol.138 (16), p.164108-164108
Hauptverfasser: Nest, M, Ludwig, M, Ulusoy, I, Klamroth, T, Saalfrank, P
Format: Artikel
Sprache:eng
Schlagworte:
ATOMIC AND MOLECULAR PHYSICS
ATOMS
CONFIGURATION INTERACTION
ELECTRON CORRELATION
ELECTRON-ELECTRON COLLISIONS
ELECTRON-ELECTRON INTERACTIONS
Electrons
GROUND STATES
HARTREE-FOCK METHOD
LASERS
MOLECULES
PHOTON-ATOM COLLISIONS
PHOTON-MOLECULE COLLISIONS
PULSES
Quantum Theory
RARE GASES
SWITCHES
TIME DEPENDENCE
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Zusammenfassung:In this paper, we present quantum dynamical calculations on electron correlation dynamics in atoms and molecules using explicitly time-dependent ab initio configuration interaction theory. The goals are (i) to show that in which cases it is possible to switch off the electronic correlation by ultrashort laser pulses, and (ii) to understand the temporal evolution and the time scale on which it reappears. We characterize the appearance of correlation through electron-electron scattering when starting from an uncorrelated state, and we identify pathways for the preparation of a Hartree-Fock state from the correlated, true ground state. Exemplary results for noble gases, alkaline earth elements, and selected molecules are provided. For Mg we show that the uncorrelated state can be prepared using a shaped ultrashort laser pulse.
ISSN:0021-9606
1089-7690
DOI:10.1063/1.4801867