Geometry and Mathematical Physics

∙ Integrable systems in relation with differential, algebraic and symplectic geometry, as well as with the theory of random matrices, special functions and nonlinear waves, Frobenius manifolds • Deformation theory, moduli spaces of sheaves and of curves, in relation with supersymmetric gauge theories, strings, Gromov-Witten invariants, orbifolds and automorphisms
• Quantum groups, noncommutative Riemannian and spin geometry, applications to models in mathematical physics
• Mathematical methods of quantum mechanics
• Mathematical aspects of quantum Field Theory and String  Theory
• Symplectic geometry, sub-riemannian geometry 
• Geometry of quantum fields and strings

Vertex algebras and modular forms

Read more about Vertex algebras and modular forms

Almost-complex and generalized complex geometry

Read more about Almost-complex and generalized complex geometry

Effective dynamics of interacting fermionic systems

Read more about Effective dynamics of interacting fermionic systems

Singular baker maps and Lorenz pretzels

Read more about Singular baker maps and Lorenz pretzels

Dirac operators on manifolds with boundary

This is an introductory course on the analysis of Dirac operators on manifolds with boundary. Our goal is to prepare the background to deal with a number of applications of elliptic boundary value problems for Dirac operators which are frequently encountered in Geometry and in Mathematical Physics.