Topology, Entanglement, and Strong Correlations
Lecture slides of the Autumn School on Correlated Electrons 2020
- Robert Jones
Density Functional Theory for the Correlated
- Matthew Foulkes
Variational Wave Functions for Molecules and Solids
- Ralf Drautz
From Electrons to Interatomic Potentials for Materials Simulations
- Frank Neese
Effective Hamiltonians in Chemistry
- Erik Koch
Multiplets and Spin-Orbit Coupling
- Robert Eder
The Physics of Doped Mott Insulators
- Józef Spałek
Mott Physics in Correlated Nanosystems
- Eva Pavarini
LDA+DMFT: Linear Response Functions
- Alexander Lichtenstein
Correlated Matter: DMFT and Beyond
- Raffaele Resta
Geometry and Topology in Many-Body Physics
- Andreas Schnyder
Topological Semimetals
- Manfred Sigrist
Aspects of Topological Superconductivity
- David Sénéchal
Group-Theoretical Classification of Superconducting States
- Rolf Heid
Linear Response and Electron-Phonon Coupling
- Frank Pollmann
Entanglement in Many-Body Systems
- Markus Müller
Quantifying Spatial Correlations in General Quantum Dynamics
Autumn School on Correlated Electrons
Overview of the Schools in the Series