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