Dynamical Freezing and Emergent Conservation Laws in Strongly Driven Interacting

Explore the fascinating world of dynamical freezing and emergent conservation laws in strongly driven interacting systems through this 36-minute lecture by Asmi Haldar from the International Centre for Theoretical Sciences. Delve into the complex behavior of many-body quantum systems under coherent time evolution and external drives. Examine mechanisms that constrain many-body dynamics in Hilbert space, including Many-body localization (MBL), Floquet MBL, Dynamical Freezing, and Hilbert Space Fragmentation. Gain insights into novel phases of quantum matter in and out of equilibrium, drawing from diverse disciplines such as Condensed Matter Physics, Statistical Mechanics, Quantum Field Theory, and Mathematics. Understand the implications for developing stable quantum devices and enhancing our ability to control quantum systems, with relevance to researchers working on various aspects of quantum technologies.