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Explore an advanced physics lecture where Thomas Faulkner from UIUC presents a groundbreaking framework for constructing quantum error correcting codes through large N limits. Delve into how code subspaces can accommodate quantum field theory with local algebraic descriptions, and examine multiple examples demonstrating these codes' role in understanding spacetime emergence and locality in AdS/CFT. Learn about the intersection of von Neumann algebras, quantum gravity, and error correction in this 72-minute high energy physics talk that bridges theoretical physics concepts with practical applications in quantum computing.
