Electron Correlations & Magnetism
Link to the registration at LSF
- To get insight into fundamentals of magnetism and electron correlations in solids.
- To learn about principles of advanced experimental methods and their interpretation.
- To understand the basic concepts of electron correlation in solids and its implications.
- To apply this knowledge to understand and to assess modern research trends in condensed matter physics.
Lecturer: Prof. Rüdiger Klingeler
Location: Kirchhoff-Institute for Physics INF 227, SR 2.404
Time: Tue, 13:15 - 14:45 h and Thu, 13:15 - 14:45 h
SWS: 6; Credit Points: 8
Tutorials: Weekly on Wednesday, 14:15 - 15:45 h (KIP, SR 3.404)
Tutor: Dr. Changhyun Koo
- Magnetism and electronic properties of atoms and ions
- Electronic properties of solids, crystal field theory
- Magnetism in metals, micro- and nanomagnetism
- Hubbard model, Mott insulators
- Magnetism in insulators, magnetic interactions
- Collective phenomena: spin ordering and phase transitions
- Magnetoresistive Effects
- Quantum Magnets
- Magnetism and high-temperature superconductivity
Link to LSF: Here
- -> Lecture content, additional material, and slides
- -> Recommended literature
- -> Tutorials