Orbital Physics in Correlated Matter

Lecture notes of the Autumn School on Correlated Electrons 2023
  1. Eva Pavarini
    Orbital Ordering in Materials
  2. Arnout Ceulemans
    The Jahn-Teller Effect
  3. Takashi Mizokawa
    Orbitally Induced Peierls Mechanism for Charge-Orbital Orderings in Transition-Metal Compounds
  4. Robert Eder
    Multiplets in Transition Metal Ions and Introduction to Multiband Hubbard Models
  5. Erik Koch
    Exchange Mechanisms
  6. Andrzej Oleś
    Spin-Orbital Entanglement in Mott Insulators
  7. Hao Tjeng
    Imaging Orbitals with X-rays
  8. Eva Benckiser
    Probing Spin, Charge and Orbital Degrees of Freedom by X-Ray Spectroscopy
  9. Jak Chakhalian
    Strong Correlations at Oxide Interfaces: What is Hidden in a Plane View?
  10. Matthias Vojta
    Orbitals, Frustration and Quantum Criticality
  11. Simon Trebst
    Kitaev Magnets
  12. Mark Pederson
    Self Interaction Corrections to Density Functional Theory
  13. Andreas Grüneis
    Coupled-Cluster Theory for Materials Science
  14. Nicola Lanatà
    Slave-Boson Theories of Multi-Orbital Correlated Systems
  15. Bernard Amadon
    DMFT for f-Electron Systems
  16. Alexander Lichtenstein
    Super-QMC: Strong Coupling Perturbation for Lattice Models

Autumn School on Correlated Electrons

Overview of the Schools in the Series