Emergent Phenomena in Correlated Matter

Lecture notes of the Autumn-School on Correlated Electrons 2013
  1. Eva Pavarini and Erik Koch
    Introduction
  2. Robert O. Jones
    Density Functional Theory for Emergents
  3. Erik Koch
    Many-Electron States
  4. Eva Pavarini
    Magnetism: Models and Mechanisms
  5. Robert Eder
    The Variational Cluster Approximation
  6. Alexander Lichtenstein
    Magnetism: From Stoner to Hubbard
  7. Werner Krauth
    Monte Carlo Methods with Applications to Spin Systems
  8. Stefan Wessel
    Monte Carlo Simulations of Quantum Spin Models
  9. Jürgen Schnack
    Quantum Theory of Molecular Magnetism
  10. Bernhard Keimer
    Recent Advances in Experimental Research on High-Temperature Superconductivity
  11. André-Marie S. Tremblay
    Strongly Correlated Superconductivity
  12. Warren E. Pickett
    Superconductivity: 2D Physics, Unknown Mechanisms, Current Puzzles
  13. Rolf Heid
    Density Functional Perturbation Theory and Electron Phonon Coupling
  14. Giovanni A.C. Ummarino
    Eliashberg Theory
  15. David M. Ceperley
    Path Integral Methods for Continuum Quantum Systems
  16. Shiwei Zhang
    Auxiliary-Field Quantum Monte Carlo for Correlated Electron Systems
  17. Ulrich Schollwöck
    DMRG: Ground States, Time Evolution, and Spectral Functions
  18. Jens Eisert
    Entanglement and Tensor Network States

OpenAccess Book

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

Eva Pavarini, Erik Koch, and Ulrich Schollwöck (eds.)
Emergent Phenomena in Correlated Matter
Modeling and Simulation, Vol. 3
Verlag des Forschungszentrum Jülich, 2013
ISBN 978-3-89336-884-6

Autumn School on Correlated Electrons

Overview of the Schools in the Series