Quantum Chaos and Eigenstate Thermalization - Lecture 2
Offered By: IPhT-TV via YouTube
Course Description
Overview
Explore the intricate world of quantum chaos and eigenstate thermalization in this comprehensive lecture by Mark Srednicki. Delve into the fundamental concepts and their applications to systems without classical limits, including Ising and Heisenberg spin systems. Examine the role of entropy in dynamical descriptions, analyze the complexities introduced by additional symmetries, and investigate the nature of the classical limit. Compare and contrast these ideas with proposed alternatives such as canonical typicality. Gain a deeper understanding of quantum mechanics and statistical physics through this in-depth, 1 hour and 43 minute presentation from IPhT-TV.
Syllabus
Mark Srednicki - Quantum chaos and eigenstate thermalization #2
Taught by
IPhT-TV
Related Courses
The P-Spin Glass Model - A Holographer's PerspectiveInstitute for Advanced Study via YouTube The Distribution of Ground States in JT Gravity from Random Matrix Models - Clifford Johnson
Kavli Institute for Theoretical Physics via YouTube Topics in Quantum Chaos - An Infosys Prize Lecture by Nalini Anantharaman
International Centre for Theoretical Sciences via YouTube Fractal Uncertainty Principle and Quantum Chaos
International Mathematical Union via YouTube Persi Diaconis: Haar-Distributed Random Matrices - In Memory of Elizabeth Meckes
Hausdorff Center for Mathematics via YouTube