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Explore the second lecture in a comprehensive series on Generalized Hydrodynamics delivered by Benjamin Doyon at the International Centre for Theoretical Sciences. Delve into advanced concepts of this cutting-edge theoretical framework that extends traditional hydrodynamics to integrable quantum systems and other complex many-body systems. Build upon foundational principles from the first lecture while examining the mathematical formalism and physical principles that govern the large-scale behavior of integrable systems out of equilibrium. Learn how Generalized Hydrodynamics provides a powerful tool for understanding transport phenomena, thermalization processes, and the emergence of hydrodynamic behavior in quantum many-body systems. Gain insights into the theoretical underpinnings that connect microscopic quantum mechanics to macroscopic fluid-like descriptions, with applications ranging from cold atomic gases to quantum spin chains. This lecture forms part of the Bangalore School on Statistical Physics-XVI, designed to bridge the gap between master's-level coursework and frontier research topics in statistical physics, making it particularly valuable for PhD students, postdoctoral researchers, and faculty members working in theoretical physics and related fields.
