FERMI SCES 2025: WE Heraeus school on new phases, superconductivity and emerging electronic properties of quantum materials

Summary

Exploring, understanding, and describing materials with strong electronic Coulomb correlations remain among the big challenges of modern condensed-matter physics. Well-known examples of such systems are transition-metal oxides, metals containing lanthanide or actinide atoms, and organic conductors. At low temperatures, these materials exhibit novel phenomena such as metal-to-insulator transitions, heavy-fermion behavior, unconventional superconductivity, unusual magnetism, stripe and nematic orders as well as pronounced deviations from the typical universal metallic behavior. Superconductivity and ferromagnetism are not only found to coexist but even to cooperate. A central goal of the research, thereby, is to develop, on the theoretical side, a quantitative microscopic understanding of the possible complex states and their interactions as well as, on the experimental side, to characterize them using the broadest possible range of measurement methods.

The aim of the school is to deepen the understanding of the physics of quantum materials with a focus on superconductivity. The lectures will address materials growth, measurement techniques, experimental results, theory, computation, and general understanding. We attempt to provide a comprehensive overview of the fundamental ideas, the current status, the recent developments, and the perspective future directions in the field.

Venue: Les Houches (France)

Deadline for registration: 17th May 2025

Image: © Von Tiia Monto, CC BY-SA 3.0, https://commons.wikimedia.org/w/index.php?curid=42749904