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The Augmented Spherical Wave (ASW) method is one of the most powerful approaches for handling the requirements of finite basis sets in DFT calculations. While it is particularly suited for the calculation of the electronic, magnetic, and optical properties of solid-state materials, recent developments allow application, in addition, to the elastic properties and phonon spectra. The book addresses all those who want to learn about methods for electronic structure calculations and the ASW method, in particular.
Spherical harmonics. --- Electronic structure. --- Density functionals. --- Differential equations, Partial. --- Harmoniques sphériques --- Structure électronique --- Fonctionnelles densité --- Equations aux dérivées partielles --- Electronic books. -- local. --- Spherical harmonics --- Density functionals --- Electronic structure --- Differential equations, Partial --- Engineering & Applied Sciences --- Physics --- Atomic Physics --- Applied Physics --- Physical Sciences & Mathematics --- 531.01 --- Mathematical theory of mechanics --- 531.01 Mathematical theory of mechanics --- Functions, Potential --- Potential functions --- Structure, Electronic --- Partial differential equations --- Density functional methods --- Density functional theory --- Functional methods, Density --- Functionals, Density --- Physics. --- Chemistry, Physical and theoretical. --- Condensed matter. --- Condensed Matter Physics. --- Numerical and Computational Physics. --- Theoretical and Computational Chemistry. --- Harmonic analysis --- Harmonic functions --- Atomic structure --- Energy-band theory of solids --- Functional analysis --- Chemistry. --- Numerical and Computational Physics, Simulation. --- Physical sciences --- Chemistry, Theoretical --- Physical chemistry --- Theoretical chemistry --- Chemistry --- Natural philosophy --- Philosophy, Natural --- Dynamics --- Condensed materials --- Condensed media --- Condensed phase --- Materials, Condensed --- Media, Condensed --- Phase, Condensed --- Liquids --- Matter --- Solids
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The Augmented Spherical Wave (ASW) method is one of the most powerful approaches to handle the requirements of finite basis sets in DFT calculations. It is particularly suited for the calculation of the electronic, magnetic, and optical properties of solid-state materials. Recent developments allow application, in addition, to the elastic properties and phonon spectra. Due to the localized nature of the ASW basis set these properties can be easily interpreted in terms of atomic-like orbitals. The book addresses all those who want to learn about methods for electronic structure calculations and the ASW method in particular. This new edition has been thoroughly revised and extended. In particular, a chapter on the new, both very efficient and accurate spherical-wave based full potential ASW method has been added.
Spherical harmonics. --- Electronic structure. --- Density functionals. --- Differential equations, Partial. --- Density functional methods --- Density functional theory --- Functional methods, Density --- Functionals, Density --- Structure, Electronic --- Physics. --- Chemistry, Physical and theoretical. --- Condensed matter. --- Materials science. --- Condensed Matter Physics. --- Numerical and Computational Physics. --- Theoretical and Computational Chemistry. --- Materials Science, general. --- Partial differential equations --- Functional analysis --- Atomic structure --- Energy-band theory of solids --- Functions, Potential --- Potential functions --- Harmonic analysis --- Harmonic functions --- Chemistry. --- Materials. --- Numerical and Computational Physics, Simulation. --- Engineering --- Engineering materials --- Industrial materials --- Engineering design --- Manufacturing processes --- Physical sciences --- Materials --- Material science --- Chemistry, Theoretical --- Physical chemistry --- Theoretical chemistry --- Chemistry --- Natural philosophy --- Philosophy, Natural --- Dynamics --- Condensed materials --- Condensed media --- Condensed phase --- Materials, Condensed --- Media, Condensed --- Phase, Condensed --- Liquids --- Matter --- Solids
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Numerical analysis --- Solid state physics --- Chemistry --- Computer. Automation --- chemie --- informatica --- algoritmen --- fysica --- numerieke analyse
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The Augmented Spherical Wave (ASW) method is one of the most powerful approaches to handle the requirements of finite basis sets in DFT calculations. It is particularly suited for the calculation of the electronic, magnetic, and optical properties of solid-state materials. Recent developments allow application, in addition, to the elastic properties and phonon spectra. Due to the localized nature of the ASW basis set these properties can be easily interpreted in terms of atomic-like orbitals. The book addresses all those who want to learn about methods for electronic structure calculations and the ASW method in particular. This new edition has been thoroughly revised and extended. In particular, a chapter on the new, both very efficient and accurate spherical-wave based full potential ASW method has been added.
Mathematical physics --- Quantum mechanics. Quantumfield theory --- Statistical physics --- Matter physics --- Physics --- Chemistry --- Materials sciences --- Computer science --- Computer. Automation --- EMI (electromagnetic interference) --- materiaalkennis --- materie (fysica) --- quantummechanica --- theoretische fysica --- chemie --- informatica --- fysica
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The Augmented Spherical Wave (ASW) method is one of the most powerful approaches for handling the requirements of finite basis sets in DFT calculations. While it is particularly suited for the calculation of the electronic, magnetic, and optical properties of solid-state materials, recent developments allow application, in addition, to the elastic properties and phonon spectra. The book addresses all those who want to learn about methods for electronic structure calculations and the ASW method, in particular.
Numerical analysis --- Solid state physics --- Chemistry --- Computer. Automation --- chemie --- informatica --- algoritmen --- fysica --- numerieke analyse
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