Quantum Many-Body Dynamics, Thermalization, Integrability-Breaking, and More by David Huse

Explore quantum many-body dynamics, thermalization, and integrability-breaking in this comprehensive lecture from the "Stability of Quantum Matter in and Out of Equilibrium at Various Scales" program. Delve into the complex world of coherent time evolution in many-body quantum systems, examining their stability under external drives and various mechanisms constraining dynamics in Hilbert space. Investigate cutting-edge concepts like Many-body localization (MBL), Floquet MBL, Dynamical Freezing, and Hilbert Space Fragmentation, drawing from diverse fields such as Condensed Matter Physics, Statistical Mechanics, and Quantum Field Theory. Gain insights into the state-of-the-art tools and concepts relevant to understanding many-body stability problems, with applications to quantum device operation and control. This lecture, presented by David Huse at the International Centre for Theoretical Sciences, offers a deep dive into the frontiers of non-equilibrium physics and its implications for quantum matter and technologies.