Full-Potential Electronic Structure Method [electronic resource] :Energy and Force Calculations with Density Functional and Dynamical Mean Field Theory / by John M. Wills, Olle Eriksson, Per Andersson, Anna Delin, Oleksiy Grechnyev, Mebarek Alouani.
by Wills, John M [author.]; Eriksson, Olle [author.]; Andersson, Per [author.]; Delin, Anna [author.]; Grechnyev, Oleksiy [author.]; Alouani, Mebarek [author.]; SpringerLink (Online service).
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BookSeries: Springer Series in Solid-State Sciences: 167Publisher: Berlin, Heidelberg : Springer Berlin Heidelberg, 2010.Description: XII, 200 p. online resource.ISBN: 9783642151446.Subject(s): Physics | Mathematical physics | Physics | Condensed Matter Physics | Mathematical Methods in PhysicsDDC classification: 530.41 Online resources: Click here to access online | Item type | Current location | Call number | Status | Date due | Barcode |
|---|---|---|---|---|---|
| MAIN LIBRARY | QC173.45-173.458 (Browse shelf) | Available |
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Formalisms -- Introductory Information -- Density Functional Theory and the Kohn–Sham Equation -- Consequences of Infinite Crystals and Symmetries -- to Electronic Structure Theory -- Linear Muffin-Tin Orbital Method in the Atomic Sphere Approximation -- The Full-Potential Electronic Structure Problem and RSPt -- Dynamical Mean Field Theory -- Implementation -- Obtaining RSPt from the Web -- Applications -- Total Energy and Forces: Some Numerical Examples -- Chemical Bonding of Solids -- Magnetism -- Excitated State Properties -- A Database of Electronic Structures -- Future Developments and Outlook.
This book covers the theory of electronic structure of materials, with special emphasis on the usage of linear muffin-tin orbitals. Methodological aspects are given in detail as are examples of the method when applied to various materials. Different exchange and correlation functionals are described and how they are implemented within the basis of linear muffin-tin orbitals. Functionals covered are the local spin density approximation, generalised gradient approximation, self-interaction correction and dynamical mean field theory.
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