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- Relativistic and Time Dependent Extensions
- Relativistic Density Functional Theory
- Introduction
- Field Theoretical Background
- Foundations
- Explicit Relativistic Exchange-Correlation Functionals
- Relativistic DFT Results for Atoms
- Appendices
- A – Relevant Aspects of Vacuum QED
- B – Relativistic Homogeneous Electron Gas**
- Density Functional Theory of Time-Dependent Phenomena
- Generalized Functional Theory of Interacting Coupled Liouvillean Quantum Fields of Condensed Matter
- Density Functional Theory of Time-Dependent Phenomena
- introduction
- Basic formalism for Electrons in Time-Dependent Electronic Fields
- One-to-One Mapping Between Time-Dependent Potentials and Time-Dependent Densities***
- Stationary-Action Principle
- Time-Dependent Kohn-Sham Scheme***
- Motion of the Nuclei
- Quantum Mechanical Treatment of Nuclear Motion
- Classical Treatment of Nuclear Motion
- Electrons in Time-Dependent Electromagnetic Fields
- Coupling to Spin
- Coupling to Orbital Currents**
- Perturbative Regime, Basic Equations
- Time-Dependent Linear Density Response
- Time-Dependent Higher-Order Response
- The Time-Dependent Exchange-Correlation Potential: Rigorous Properties and Approximate Functionals
- Approximations Based on the Homogeneous Electron Gas
- Applications Within the Perturbative Regime
- Applications Beyond the Perturbative Regime: Atoms in Strong femto-second Laser Pulses
