TY - BOOK ID - 209918 TI - Planewaves, pseudopotentials, and the LAPW method. AU - Singh, David J. AU - Nordstrom, Lars PY - 2006 SN - 1280634359 9786610634354 0387296840 PB - New York, NY : Springer, DB - UniCat KW - Density functionals. KW - Pseudopotential method. KW - Pseudopotentials KW - Potential theory (Physics) KW - Density functional methods KW - Density functional theory KW - Functional methods, Density KW - Functionals, Density KW - Functional analysis KW - Surfaces (Physics). KW - Optical materials. KW - Materials. KW - Characterization and Evaluation of Materials. KW - Optical and Electronic Materials. KW - Solid State Physics. KW - Spectroscopy and Microscopy. KW - Metallic Materials. KW - Engineering KW - Engineering materials KW - Industrial materials KW - Engineering design KW - Manufacturing processes KW - Optics KW - Materials KW - Physics KW - Surface chemistry KW - Surfaces (Technology) KW - Materials science. KW - Electronic materials. KW - Solid state physics. KW - Spectroscopy. KW - Microscopy. KW - Metals. KW - Metallic elements KW - Chemical elements KW - Ores KW - Metallurgy KW - Analysis, Microscopic KW - Light microscopy KW - Micrographic analysis KW - Microscope and microscopy KW - Microscopic analysis KW - Optical microscopy KW - Analysis, Spectrum KW - Spectra KW - Spectrochemical analysis KW - Spectrochemistry KW - Spectroscopy KW - Chemistry, Analytic KW - Interferometry KW - Radiation KW - Wave-motion, Theory of KW - Absorption spectra KW - Light KW - Spectroscope KW - Solids KW - Electronic materials KW - Material science KW - Physical sciences KW - Qualitative KW - Spectrometry KW - Analytical chemistry UR - https://www.unicat.be/uniCat?func=search&query=sysid:209918 AB - Planewaves, Pseudopotentials, and the LAPW Method, 2nd Edition, provides a comprehensive description of the LAPW (Linearized Augmented Plane Wave) method and its relationships with other first principles approaches for materials. The book is essential reading for practitioners of the method and for developers of electronic structure methods. This book is an updated and revised version of the previous volume. New material has been added on topics including the APW+LO method, LDA+U method, non-collinear magnetism and spin-orbit treatments. David J. Singh, is presently a distinguished research staff member and group leader for theory in the Condensed Matter Sciences Division of Oak Ridge National Laboratory. Lars Nordström is an associate professor in condensed matter theory in the Physics Department of Uppsala University, Sweden. ER -