Quantum Channel Capacity for Traversable Wormhole

Explore the quantum channel capacity for traversable wormholes in this 52-minute lecture by Zhenbin Yang from the International Centre for Theoretical Sciences. Delve into the intersection of quantum information theory, quantum field theory, and gravity as part of the "Quantum Information, Quantum Field Theory and Gravity" program. Examine how the AdS/CFT correspondence has revolutionized our understanding of quantum gravity, viewing spacetime and gravity as emergent descriptions of quantum information dynamics. Investigate the application of quantum information tools to longstanding problems in quantum gravity, such as the black hole information paradox. Learn about the impact of black hole physics on information scrambling in chaotic quantum systems. Discover how quantum information theory provides new insights into quantum field theories and many-body dynamics, including novel proofs of constraints on QFTs and characterizations of quantum matter phases. Gain knowledge about quantum error correction, the emergence of spacetime, complexity growth in gravity, multiparty entanglement in holography, gravitational constraints on quantum information localization, and tensor network models in condensed matter and quantum gravity.