Computational Electronic Structure Theory
by Patrick Rinke
Publisher: Fritz Haber Institute 2011
Number of pages: 66
The ever growing field of Computational electronic structure theory combines theoretical physics and chemistry, math and computer science. The overall goal is to have a theory that accurately and reliably predicts material properties from first principles.
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by Jurg Hutter - University of Zurich
Contents: Basic Quantum Mechanics; Basic Mathematical Review; Molecular Hamiltonian; Two-Electron Systems and Spin; Hartree-Fock Approximation; Molecular Orbital Theory; Correlation Energy; Coupled Cluster Approaches; and more.
Contents: Electron configuration; Tight binding; Nearly free electron model; Hartree-Fock method; Modern valence bond; Generalized valence bond; Moller-Plesset perturbation theory; Configuration interaction; Coupled cluster; etc.
by David Sherrill, et al. - Georgia Tech
From the table of contents: Intro to Electronic Structure Theory; Integral Notation and Hartree-Fock MO Theory; Basis Sets; Configuration Interaction; Density Functional Theory; Many-body Perturbation Theory; Coupled-cluster Theory.
by Raffaele Resta - University of Trieste
From the table of contents: Introduction; Early discoveries; Berry-ology (geometry in nonrelativistic quantum mechanics); Manifestations of the Berry phase; Modern theory of polarization; Quantum metric and the theory of the insulating state.