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Explore the intricate connections between quantum chaos, backreaction effects, and emergent geometric structures in this advanced physics seminar delivered by Professor Chente Ma from Great Bay University. Delve into the theoretical framework of Sachdev-Ye-Kitaev (SYK) and Jackiw-Teitelboim (JT) gravity systems, examining how quantum mechanical chaos manifests in these models and influences the emergence of spacetime geometry. Investigate the backreaction mechanisms that occur when quantum fluctuations affect the gravitational background, and analyze how these effects contribute to our understanding of holographic duality and quantum gravity. Learn about the mathematical tools and techniques used to study these complex systems, including their applications to black hole physics and the AdS/CFT correspondence. Gain insights into cutting-edge research at the intersection of condensed matter physics, quantum field theory, and gravitational physics, with particular emphasis on how quantum chaos emerges from strongly correlated many-body systems and its implications for understanding the fundamental nature of spacetime.
