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Thermodynamic Measurements of Correlated States in Magic Angle Twisted Bilayer Graphene

Kavli Institute for Theoretical Physics via YouTube

Overview

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Explore a 44-minute conference talk on thermodynamic measurements of correlated states in Magic Angle Twisted Bilayer Graphene, presented by Dima Efetov from LMU Munich. Delve into cutting-edge research on Moiré materials, focusing on their unprecedented tunability for band structure, symmetry, and topology. Gain insights into pressing theoretical questions surrounding the origin of superconductivity, the nature of correlated states, and the role of topology in these novel quantum systems. Learn about experimental challenges and innovative techniques used to study twisted bilayer graphene. Discover how this research contributes to the broader understanding of emerging tunable platforms, including twisted superconductors, topological surface states, quasi-periodic moiré systems, and twisted magnetic materials. Recorded as part of the "Moiré materials: A New Paradigm in Tunable Quantum Matter" conference at the Kavli Institute for Theoretical Physics, this talk offers a deep dive into the forefront of condensed matter physics and materials science.

Syllabus

Thermodynamic measurements of correlated states in Magic Angle Twisted... ▸ Dima Efetov (LMU Munich)

Taught by

Kavli Institute for Theoretical Physics

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