Introduction to Quantum Information Aspects of AdS/CFT - Lecture 3

Explore the third lecture in a series on quantum information aspects of AdS/CFT correspondence, delivered by Matthew Headrick at the International Centre for Theoretical Sciences. Delve into advanced topics at the intersection of quantum gravity, quantum information theory, and many-body physics. Gain insights into the emergent nature of spacetime and gravity as described by the dynamics of quantum information in microscopic quantum systems. Examine how tools from quantum information theory have led to breakthroughs in quantum gravity problems, including the black hole information paradox. Investigate the application of black hole physics to understanding information scrambling in chaotic quantum systems. Learn about the impact of quantum information theory on quantum field theories and many-body dynamics, including novel proofs of constraints on QFTs and characterizations of quantum matter phases. Engage with cutting-edge research themes such as quantum error correction, complexity growth in gravity, multiparty entanglement in holography, and tensor network models in condensed matter and quantum gravity.