Time-Dependent Density-Functional Theory

Concepts and Applications

Authors:

Carsten A. Ullrich

Brand: OUP Oxford

ISBN: 9780198841937

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Description

Time-dependent density-functional theory (TDDFT) describes the quantum dynamics of interacting electronic many-body systems formally exactly and in a practical and efficient manner. TDDFT has become the leading method for calculating excitation energies and optical properties of large molecules, with accuracies that rival traditional wave-function based methods, but at a fraction of the computational cost.This book is the first graduate-level text on the concepts and applications of TDDFT, including many examples and exercises, and extensive coverage of the literature. The book begins with a self-contained review of ground-state DFT, followed by a detailed and pedagogical treatment of the formal framework of TDDFT. It is explained how excitation energies can be calculated from linear-response TDDFT. Among the more advanced topics are time-dependent current-density-functional theory, orbital functionals, and many-body theory. Many applications are discussed, including molecular excitations, ultrafast and strong-field phenomena, excitons in solids, van derWaals interactions, nanoscale transport, and molecular dynamics.

Product Details

Brand OUP Oxford

Reference 88262

EAN13 9780198841937

ISBN 9780198841937

Data sheet

Publication date: 2019
Issue number: 1
Cover: paperback
Pages count: 536
Dimensions (mm): 171 x 246
Weight (g): 908

Introduction; Review of ground-state density-functional theory; Fundamental existence theorems; Time-dependent Kohn-Sham scheme; Time-dependent observables; Properties of the time-dependent xc potential; The formal framework of linear-response TDDFT; The frequency-dependent xc kernel; Applications in atomic and molecular systems; Time-dependent current-DFT; Time-dependent optimized effective potential; Extended systems; TDDFT and many-body theory; Long-range correlations and dispersion interactions; Nanoscale transport and molecular junctions; Strong-field phenomena and optimal control; Nuclear motion; Atomic units; Functionals and functional derivatives; Densities and density matrices; Hartree-Fock and other wave-function approaches; Constructing the xc potential from a given density; DFT for excited states; Systems with noncollinear spin; The dipole approximation; A brief review of classical fluid dynamics; Constructing the scalar from the tensor xc kernel; Semiconductor quantum wells; TDDFT in a Lagrangian frame; Inversion of the dielectric matrix; Review literature in DFT and many-body theory; TDDFT computer codes;