Wilson
Lecture 1: Correlations and Topology on Kagome lattices
Lecture 2: Unconventional Electronic States in Kagome metals: Material Case Studies
Ming Yi
Lecture 1: ARPES as a tool for quantum materials.
Lecture 2: Flat bands in bulk quantum materials
Hands-on Regnault-Kwan
Fractional Chern insulators: models, materials, and methods
Päivi Törmä
Lecture 1: Quantum geometry and superconductivity: basics
Lecture 2: Quantum geometry and superconductivity: recent developments
Andrei Bernevig
Lecture 1: Pentalayer graphene I
Lecture 2: Pentalayer graphene II
Leni Bascones
Lecture 1: Electronic correlations. An introduction
Lecture 2: Cascades, the unconventional normal state of twisted bilayer graphene
Zhida Song
Lecture 1: Topological Quantum Chemistry and Symmetry-based Indicators for Magnetic Materials
Lecture 2: Molecular Pairing in Twisted Bilayer Graphene Superconductivity
Lecture 3: Spin Space Groups: Full Classification and Applications
Allan MacDonald
Letcure 1: Topology in Moiré Materials
Lecture 2: Beyond Surface State Manifestations of Non-Trivial Band Topology: A comparison between the Quantum Hall Effect and the Topological Magneto-electric Effect
Erez Berg
Solvable models for strange metals
Alex Altland
Introduction to the SKY model