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Special Event
Noncommutative Geometry and Index Theory (2)
Prof. Dr. Markus Pflaum
14 Jun 2010, 8:00 – 9:30

Noncommutative Geometry and Index-Theory

Noncommutative Geometry is a relatively young mathematical discipline. Its main idea is to study noncommutative algebras as "function algebras" of some abstract "noncommutative spaces". Among other, Noncommutative Geometry emanated from the mathematical structures governing quantum physics, where the observable
space is encoded by a noncommutative algebra. Methods from Noncommutative Geometry have lead to new and striking results for Operator Theory, Global Analysis and Mathematical Physics, in particular for quantization theory and the index theory of geometrically de fined operators on manifolds.
The lecture is intended for graduate students in Mathematics or Physics. The foundations for further work in the field of Noncommutative Geometry or Index Theory will be provided in the course. Particular attention will be laid on deformation
quantization, since it provides a mathematically rigorous method for the construction of noncommutative algebras describing quantum mechanical systems.
Moreover, methods from deformation quantization give rise to a particularly elegant proof of index theorems. In the course, the concept of elliptic pseudodiff erential operators and their indices will be explained. It will be shown how algebras of
pseudodi fferential operators can be interpreted as a deformation of an appropriate commutative function algebra. After that, we will explain the fundamental ideas of Connes' Noncommutative Geometry and apply it to the study of deformed algebras.
In a fi nal lecture, these concepts will be brought together and used for a proof of the index theorem by Atiyah-Singer and its generalizations.

The course is mainly intended for students of Mathematics or Theoretical Physics.
Prerequisites for participation are a solid knowledge of the basic courses in Analysis and Linear Algebra. Some acquaintance with manifold theory and/or quantum
mechanics is helpful.

B. Fedosov, Deformation Quantization and Index Theory
M. Khalkhali, Basic Noncommutative Geometry
further course material will be presented during the lectures

Activities 2010