Entanglement and topology in interacting quantum matter

The understanding of the rich physics exhibited by strongly correlated quantum systems has seen a rapid development in recent years, driven by a deepened understanding of their underlying entanglement structure. This includes a diverse range of topics: The interplay of symmetries and entanglement which gives rise to diverse symmetry-protected and symmetry-enriched phases, including higher-order symmetries; disorder, thermalization, and many-body localization; new analytical and numerical approached based on tensor networks, using the entanglement structure of those systems; novel developments in integrability; advances in Quantum Monte Carlo and other simulation methods for entangled quantum systems; the use of machine learning in quantum physics; applications of entanglement in quantum gravity; and many more. The aim of this two-week meeting is to bring together both specialists and newcomers in the field of entanglement in strongly correlated systems, located at the interface of quantum information and condensed matter.