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. Jeroen van den Brink
    Quantum Compass and Kitaev Models
  12. Simon Trebst
    Kitaev Magnets
  13. Mark Pederson
    Self Interaction Corrections to Density Functional Theory
  14. Andreas Grüneis
    Coupled-Cluster Theory for Materials Science
  15. Nicola Lanatà
    Slave-Boson Theories of Multi-Orbital Correlated Systems
  16. Bernard Amadon
    DMFT for f-Electron Systems
  17. Alexander Lichtenstein
    Super-QMC: Strong Coupling Perturbation for Lattice Models

OpenAccess Book

book cover The lecture notes have been published as a book:

Eva Pavarini and Erik Koch (eds.)
Dynamical Mean-Field Theory of Correlated Electrons
Modeling and Simulation, Vol. 13
Verlag des Forschungszentrum Jülich, 2023
ISBN 978-3-95806-689-2

Autumn School on Correlated Electrons

Overview of the Schools in the Series