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Theoretical Solid State Physics
Strongly Correlated Quantum Systems · Advanced Numerical Methods · Quantum Matter
Welcome to the research group of Prof. Jan von Delft at LMU Munich. We investigate strongly correlated quantum systems, where interactions between electrons lead to extraordinary phenomena—from unconventional superconductivity and quantum criticality to exotic spin liquids and non-Fermi-liquid behavior.
Our Methods
- Tensor network algorithms (DMRG, MPS, PEPS)
- Functional renormalization group (fRG)
- Numerical renormalization group (NRG)
- Quantum field theory (real-frequency, Keldysh formalism)
Research Applications
- Hund metals and heavy-fermion compounds
- Quantum spin liquids and frustrated magnetism
- Quantum impurity models and Kondo physics
- Strange metal behavior and quantum criticality
Explore our research highlights for recent breakthroughs, or learn more about our team & publications.
"We develop theoretical tools to unravel the mysteries of quantum materials, bridging abstract concepts with experimental observations to advance our understanding of strongly correlated matter."