Dynamics of Fractional Quantum Hall Effect - A Fluid Dynamics Approach by Sriram Ganeshan

This course covers the dynamics of the Fractional Quantum Hall Effect using a fluid dynamics approach. The learning outcomes include understanding periodically and quasi-periodically driven complex systems, terahertz and infrared driven quantum matter, shaken optical lattices, cold atoms, Floquet time crystals, localization-delocalization physics in quasi-periodically driven systems, and dynamics of gauge theories. The course teaches skills in analyzing closed quantum systems with time-dependent Hamiltonians, open quantum systems, and the gauge theory of coupling between matter and radiation. The teaching method involves a theoretical approach with a focus on the interplay between theory and experiment. The intended audience includes researchers and professionals interested in quantum physics, condensed matter physics, and theoretical physics.