Explore the dynamical manifestations of many-body quantum chaos and self-averaging in this 39-minute lecture by Lea Santos from the International Centre for Theoretical Sciences. Delve into the stability of quantum matter in and out of equilibrium at various scales, examining coherent time evolution in experimentally realizable many-body quantum systems. Investigate mechanisms constraining 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 and their potential applications in quantum devices. Learn how this interdisciplinary field draws from Condensed Matter Physics, Statistical Mechanics, Quantum Field Theory, and Mathematics to address fundamental questions about quantum system stability and control.
Dynamical Manifestations of Many-Body Quantum Chaos and Self-Averaging
International Centre for Theoretical Sciences via YouTube
Overview
Syllabus
Dynamical manifestations of many-body quantum chaos and self-averaging by Lea Santos
Taught by
International Centre for Theoretical Sciences
Related Courses
-
Many-body Quantum Chaos in Mixtures of Multiple Species
-
Nature of Many-Body Localization Transition: Single-Particle Excitations in Interacting Systems
-
Anomalous Diffusive Fluctuations in Low Dimensional Quantum Systems
-
Quantum States under Floquet Heating
-
Quantum Many-Body Dynamics, Thermalization, Integrability-Breaking, and Many- by David Huse
-
Dynamical Freezing and Emergent Conservations in Interacting Systems
