Explore cutting-edge developments in theoretical physics through this comprehensive program featuring lectures and talks on anomalies, topology, and quantum information in field theory and condensed matter physics. Delve into advanced topics including symmetry-enforced entanglement from projective non-invertible symmetries, quantum geometric effects in semiconductors and superconductors, and topological quantum field theory as error-correcting codes. Examine the hidden symmetries of Yang-Mills theory, fracton-like behavior in classical spin-orbital models, and entanglement entropy in conformal field theory with non-invertible symmetries. Learn about the generalized Landau paradigm through multi-part lecture series, discover how topology reveals hidden information in phases of matter, and understand non-invertible symmetries and dualities from fundamental principles. Investigate higher Berry phases in quantum many-body systems, modular invariance and selection rules for renormalization group flows, and Krylov complexity from circuit complexity perspectives. Study strongly disordered and amorphous systems beyond translational symmetry, powerful methods for evaluating mass gaps in free-particle quantum systems, and the applications of many-body quantum mechanics to circuit design. Explore entanglement as a topological marker in confined superfluid chains, bridging techniques between lattice and continuum theories, and the relationship between symmetries, algebras, and entropy in quantum field theory.

Syllabus

Ho Tat Lam: Symmetry Enforced Entanglement from Projective Non-invertible Symmetry
Caio Lewenkopt: Beyond translational symmetry: Strongly disordered and amorphous...
José Abel Hoyos Neto: A powerful method to evaluate the mass gaps of free-particle quantum...
Wei Chen: Quantum geometric effects in semiconductors and superconductors
Dmitry Melnikov: TQFT as error-correcting codes
Vladimir Korepin: Lessons of Many-Body Quantum Mechanics for Circuit Design
Luiz Agostinho Ferreira: The hidden symmetries of Yang-Mills theory in (3 + 1)-dimensions
Behan Connor: In search of generic CFTs in two dimensions
Vivian França: Entanglement as a Topological Marker in a Confined Superfluid Chain
Rodrigo Pereira: Fracton-like behavior in a classical spin-orbital model
Jose Carlos Egues (USP, Brazil)
Jaume Gomis (Perimeter Institute, Canada)
Horatiu Nastase: Krylov complexity from circuit complexity and from instantons
Javier Magán: On the existence of non-invertible symmetries
Javier Molina Vilaplana: Entanglement Entropy in CFT with Non-Invertible Symmetries
Valentín Benedetti: Modular Invariance and Selection Rules for RG Flows
Leo Radzihovsky (University of Colorado, USA): TBA
German Sierra: Bridging the Lattice and the Continuum: Dualities and Criticality
Horacio Casini: Symmetries, algebras and entropy in Quantum Field Theory - Class 3
John McGreevy: The generalized Landau paradigm - Class 3
Fiona Burnell: Topology, Hidden Information and Phases of Matter - Class 3
Paul Fendley: Non-invertible symmetries and dualities from the ground up - Class 3
John McGreevy: The generalized Landau paradigm - Class 2
Horacio Casini: Symmetries, algebras and entropy in Quantum Field Theory - Class 2
John McGreevy: The generalized Landau paradigm - Class 1
Fiona Burnell: Topology, Hidden Information and Phases of Matter - Class 2
Shinsei Ryu: Higher Berry Phase in Quantum Many-Body Systems - Class 2
Paul Fendley: Non-invertible symmetries and dualities from the ground up - Class 1
Fiona Burnell: Topology, Hidden Information and Phases of Matter - Class 1
Horacio Casini: Symmetries, algebras and entropy in Quantum Field Theory - Class 1
Shinsei Ryu: Higher Berry Phase in Quantum Many-Body Systems - Class 1
Paul Fendley: Non-invertible symmetries and dualities from the ground up - Class 2