The nature of electron correlation in a dissociating bond
Date
2011-06-10
Authors
Hollett, Joshua W.
McKemmish, Laura K.
Gill, Peter M. W.
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American Institute of Physics (AIP)
Abstract
We have constructed the unrestricted Hartree-Fock (UHF), restricted Hartree-Fock (RHF), and full configuration interaction (FCI) position and momentum intracules and holes for H···H at bond lengths R from 1 to 10 bohrs. We trace the recently discovered inversion of the UHF position hole at intermediate R to over-localization of the spin-orbitals, and support this by a correlation energy component analysis. The RHF and UHF momentum holes are found to be more complicated; however their features are explained through decomposition of electron correlation effects. The UHF momentum hole is also found to invert and exhibits interesting behavior at large R. The RHF (but not UHF) and FCI momentum intracules exhibit Young-type interference patterns related to recent double photoionization experiments. Our analyses yield the most comprehensive picture to date of the behavior of the electrons during homolytic bond fission.
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Keywords: Correlation energy; Dissociating bonds; Double photoionization; Electron correlation effect; Full configuration interaction; Homolytic bonds; Restricted Hartree-fock; Spin-orbitals; Unrestricted Hartree-Fock; Young-type interference pattern; Electron corr
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The Journal of Chemical Physics
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