Using Measurements to Sculpt Quantum Entanglement and Create Non-Abelian Topological States

Explore a comprehensive lecture on quantum entanglement and non-Abelian topological states delivered by Ashvin Vishwanath at the International Centre for Theoretical Sciences. Delve into advanced concepts of quantum information, quantum field theory, and gravity as part of a broader program on these interconnected topics. Gain insights into how measurements can be used to manipulate quantum entanglement and create non-Abelian topological states. Discover the latest developments in the AdS/CFT correspondence and its implications for quantum gravity, spacetime emergence, and quantum information dynamics. Learn about the application of quantum information theory to quantum field theories and many-body systems, including novel proofs of constraints and characterizations of quantum matter phases. Engage with cutting-edge research on quantum error correction, complexity growth, multiparty entanglement, gravitational constraints on quantum information localization, and tensor network models in condensed matter and quantum gravity.