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Explore the fundamental concepts of non-equilibrium phases in quantum systems through this 46-minute conference talk delivered by Jong Yeon Lee from the University of Illinois at Urbana-Champaign. Delve into the theoretical framework for understanding quantum phases that exist far from thermal equilibrium, examining how these phases emerge and can be characterized in quantum many-body systems. Learn about the mathematical tools and physical principles used to define and classify non-equilibrium phases, including their stability properties and phase transitions. Discover how recent advancements in quantum hardware enable the engineering and observation of these exotic quantum states, and understand the connections between non-equilibrium dynamics and quantum statistical mechanics. Gain insights into the interplay between theoretical predictions and experimental realizations in the context of interactive and monitored quantum dynamics, as part of the broader discussion on quantum learning theory and machine learning approaches to many-body physics presented at the Kavli Institute for Theoretical Physics conference.
