Review of Classical and Quantum Information Theory - Lecture 2

Delve into the second lecture of a comprehensive review on classical and quantum information theory presented by Jaikumar Radhakrishnan at the International Centre for Theoretical Sciences. Explore advanced concepts in quantum information, quantum field theory, and gravity as part of a broader program bringing together experts in these multidisciplinary fields. Gain insights into the AdS/CFT correspondence, the emergence of spacetime and gravity from quantum information dynamics, and the intersection of general relativity with quantum information theory. Examine how quantum information tools have advanced understanding of black hole physics, information scrambling in chaotic quantum systems, and constraints on quantum field theories. Discover the applications of entanglement structure in characterizing phases of quantum matter and the role of multiparty entanglement in holography. Engage with cutting-edge topics such as quantum error correction, complexity growth in gravity, and tensor network models in condensed matter and quantum gravity.

Review of Classical and Quantum Information Theory (Lecture 2) by Jaikumar Radhakrishnan