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

Integrable systems and Riemann surface exams

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GMP PhD defences

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Some properties of Higgs bundles on projective and kähler manifolds

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Susy enhancing RG flow and geometry

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The Poincare' disk and non-euclidean geometry

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Gauge Theory

In this course we will give an introduction to gauge theory on smooth 4-manifolds and to its applications in differential topology and algebraic geometry. The following themes are supposed to be covered: