Fractionalization due to Orbital Geometric Frustration
Offered By: Kavli Institute for Theoretical Physics via YouTube
Course Description
Overview
Explore a 49-minute conference talk on "Fractionalization due to Orbital Geometric Frustration" presented by Eun Ah Kim from Cornell University. Delivered as part of the "Moiré materials: A New Paradigm in Tunable Quantum Matter" conference at the Kavli Institute for Theoretical Physics (KITP) in Santa Barbara, CA. Delve into the fascinating world of moiré materials and their unprecedented tunability in band structure, symmetry, and topology. Gain insights into pressing theoretical questions surrounding superconductivity, correlated states, and topology in these materials. Discover emerging tunable platforms like twisted superconductors, topological surface states, quasi-periodic moiré systems, and twisted magnetic materials. Access additional conference information, recordings, and slide decks through the provided links, and stay updated with KITP's latest research by following their social media.
Syllabus
Fractionalization due to Orbital Geometric Frustration ▸ Eun Ah Kim (Cornell)
Taught by
Kavli Institute for Theoretical Physics
Related Courses
Pomeranchuk Effect and the Entropy of Fluctuating Ferromagnets in Twisted BilayerKavli Institute for Theoretical Physics via YouTube Topology, Correlations and Superconductivity in Magic Angle Graphene - Lecture 2
International Centre for Theoretical Sciences via YouTube Addressing Individual Layers in Artificial 2D Heterostructures
International Centre for Theoretical Sciences via YouTube Mapping of Interacting Flat Bands with Concentrated Berry Curvature to a Topological Heavy Fermion Problem
Institute for Advanced Study via YouTube Tuning Correlations, Topology, and Magnetism in Semiconductor Moiré Materials
Institute for Advanced Study via YouTube