Description
Quantum entanglement is a striking feature of the quantum world, with no classical counterpart. Over the last two decades, it has become a meeting ground between quantum information and other areas of physics, including statistical mechanics, condensed matter, and high-energy theory. In many-body systems, entanglement is closely tied to emergent phenomena such as quantum phase transitions, topological phases, and the emergence of thermodynamics far from equilibrium. Exact results obtained in solvable models and field theories play a central role in this program, offering sharp insights that guide our understanding of more complex systems. In this talk, I will give a broad overview of this active field of research and highlight several illustrative results.
