|  |
| |
| Artikel-Nr.:
5667A-9783319197692 Herst.-Nr.:
9783319197692 EAN/GTIN:
9783319197692 |
| |
|
| | |
| This work addresses the computation of excited-state properties of systems containing thousands of atoms. To achieve this, the author combines the linear response formulation of time-dependent density functional theory (TDDFT) with linear-scaling techniques known from ground-state density-functional theory. This extends the range of TDDFT, which on its own cannot tackle many of the large and interesting systems in materials science and computational biology. The strengths of the approach developed in this work are demonstrated on a number of problems involving large-scale systems, including exciton coupling in the Fenna-Matthews-Olson complex and the investigation of low-lying excitations in doped p-terphenyl organic crystals. Weitere Informationen: | | Author: | Tim Joachim Zuehlsdorff | Verlag: | Springer International Publishing | Sprache: | eng |
|
| | |
| | | |
| Weitere Suchbegriffe: Festkörperphysik, Density functional theory for computational biology, Electronic Properties of Organic Crystals, Electronic Structure Theory, Excited State Properites of Large Systems, Large System Electronic Properties, Linear Response Formulation, Linear-scaling Techniques, Optical Excitations in Large Systems, Time-dependent Density-functional Theory |
| | |
| |