The Physics of Correlated Insulators, Metals, and Superconductors
Lecture slides of the Autumn School on Correlated Electrons 2017
- Richard Martin
Electronic Structure Computation Meets Strong Correlation: Guiding Principles
- Richard Scalettar
Insulator, Metal, or Superconductor: The Criteria
- Raffaele Resta
The Insulating State of Matter: A Geometrical Theory
- Erik Koch
Exchange Mechanisms
- Andrzej Oleś
Orbital Physics
- Robert Eder
Introduction to the Hubbard Model
- Peter Prelovšek
The Finite Temperature Lanczos Method and its Applications
- Florian Gebhard
Gutzwiller Density Functional Theory
- Eva Pavarini
Mott transition: DFT+U vs. DFT+DMFT
- Alexander Lichtenstein
Path Integrals and Dual Fermions
- Václav Janiš
Dynamical Mean-Field Theory of Disordered Electrons: Coherent Potential Approximation and Beyond
- Johann Kroha
Interplay of Kondo Effect and RKKY Interaction
- Michele Fabrizio
Kondo Physics and the Mott Transition
- Luca de' Medici
Hund's Metals Explained
- Rolf Heid
Electron-Phonon Coupling
- Antonio Sanna
Introduction to Superconducting Density Functional Theory
Autumn School on Correlated Electrons
Overview of the Schools in the Series