Non-Equilibrium Dynamics in Dipole- and Higher-Moment Conserving Systems - Frank Pollmann
Kavli Institute for Theoretical Physics via YouTube
Overview
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Explore non-equilibrium dynamics in dipole- and higher-moment conserving systems in this 30-minute conference talk by Frank Pollmann, recorded as part of the 2021 Non-Equilibrium Universality in Many-Body Physics KITP Conference. Delve into the fascinating world of quantum simulators and their impact on non-equilibrium many-body physics. Examine universal aspects of many-body systems far from equilibrium, bridging the gap between statistical physics, AMO, condensed matter, and high-energy physics. Discover novel phases of matter and their associated universality classes that emerge beyond equilibrium paradigms. Investigate topics such as short-time universality, entanglement dynamics, and mappings between classical and quantum non-equilibrium systems. Gain insights into the interplay between high-energy physics and non-equilibrium condensed and AMO systems, with a focus on potential experimental realizations to enhance our understanding of far-from-equilibrium universality. Follow Pollmann's presentation as he covers key concepts including fractal excitations, universal behavior, frozen side density, and subsystems, providing a comprehensive overview of current research and future directions in this cutting-edge field.
Syllabus
Introduction
NonEquilibrium Dynamics
Fractal excitations
Summary
Hamiltonian
Universal Behavior
Work in Progress
Frozen Side Density
Subsystems
Questions
Motivation
Dream
Taught by
Kavli Institute for Theoretical Physics