Main  lectures

  • Mathematical foundations of Quantum Chemistry
  • Second Quantization
  • Algorithm Design
  • Coupled Cluster Theory (Ground States)
  • Coupled Cluster Theory (Equation of Motion)
  • Derivative Techniques
  • Magnetic Properties
  • Multiconfigurational Self-Consistent Field
  • Multireference Dynamic Correlation Methods
  • Relativistic Quantum Chemistry
  • Modern approaches to electron correlation (DMRG, Stochastic approaches, …)
  • Local Correlation Approaches
  • Resonance States