Topology, Entanglement, and Strong Correlations

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

OpenAccess Book

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

Eva Pavarini and Erik Koch (eds.)
Topology, Entanglement, and Strong Correlations
Modeling and Simulation, Vol. 10
Verlag des Forschungszentrum Jülich, 2020
ISBN 978-3-95806-466-9

Autumn School on Correlated Electrons

Overview of the Schools in the Series