Ab initio lattice dynamics of nonconducting crystals by systematic fragmentation
Date
2011-04-29
Authors
Collins, Michael A.
Journal Title
Journal ISSN
Volume Title
Publisher
American Institute of Physics (AIP)
Abstract
A systematic method for approximating the ab initio electronic energy of crystal lattices has been improved by the incorporation of long range electrostatic and dispersion interactions. The effect of these long range interactions on the optimization of the crystal structure is reported. The harmonic lattice dynamics have been evaluated to give phonon frequencies and neutron scattering intensities. Exemplary results are reported for diamond, silicon, and α-quartz using Hartree-Fock, Möller-Plesset perturbation, and coupled-cluster levels of ab initio theory.
Description
Keywords
Keywords: Ab initio; Ab initio theory; Coupled clusters; Dispersion interaction; Electronic energies; Harmonic lattice; Hartree-fock; Lattice dynamics; Long range; Long range interactions; Phonon frequencies; Scattering intensity; Systematic method; Lattice vibrati
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Source
The Journal of Chemical Physics
Type
Journal article