Quantum Information and Tools for Understanding Dynamical Regimes Far From Thermalization - Lecture 3

Explore quantum information theory and non-thermalizing systems in this advanced physics lecture from the Infosys-ICTS Chandrasekhar series. Delve into many-body localization and the role of entanglement in interacting particle systems that deviate from thermal equilibrium. Learn how quantum information quantities constrain classical computation and discover new measurement techniques for entanglement in solid-state systems using neutron scattering. Examine experimental systems like nitrogen vacancy centers in diamond that exhibit unique behaviors between localization and conventional thermalization. Presented by Joel Moore, Chern-Simons Professor of Physics at UC Berkeley and Senior Faculty Scientist at Lawrence Berkeley National Laboratory, this lecture combines theoretical physics concepts with practical applications in quantum matter research. Part of a broader discussion meeting on "Quantum Many-Body Physics in the Age of Quantum Information," the presentation offers insights into emerging understanding of non-thermalizing systems and their implications for quantum physics.