Non-commutative Geometry and its Applications

Hausdorff Trimester Program

September 1 - December 19, 2014

Organisers: Alan L. Carey, Victor Gayral, Matthias Lesch, Walter van Suijlekom, Raimar Wulkenhaar


Non-commutative geometry, in the sense of this program, is the exploration of geometric concepts through operator-algebraic methods, as initiated and outlined by Alain Connes. Among the topics and techniques central to non-commutative geometry are Hochschild and cyclic cohomology; bivariant K-theory and index theory; the measure-theoretic and topological analysis of operator algebras; and spectral geometry. Many of these methods arose from classical problems in global analysis, topology and representation theory. Collectively they have become powerful and effective tools that bring geometric ideas to bear on the analysis of a wide range of non-standard spaces arising in mathematics and physics.

Other topics in mathematics and mathematical physics such as non-commutative algebraic geometry, foliations, groupoids, stacks, gerbes, deformations and quantization have increasingly drawn on the perspectives of non-commutative geometry, with index theory often featuring prominently.

Non-commutative spaces also arise in number theory and arithmetic geometry; and in applications to topics in physics such as quantum field theory, renormalization, gauge theory, string theory, cosmology, gravity, mirror symmetry, condensed matter physics and statistical mechanics.


A primary objective is to focus on applications of NCG with a critical appraisal of their effectiveness. Both established and potential applications will be explored and the organisers are aiming to include a breadth of topics in the program. A summary of the potential scope is given by the following list:

  • the NCG approach to the standard model,
  • non-commutative variational methods,
  • exactly solved models,
  • spectral geometry, 
  • non-compact (non-unital) geometries,
  • dynamical systems, 
  • number theory,
  • KMS theory,
  • twisted K-theory, 
  • condensed matter physics applications,
  • Hopf algebras and quantum groups,
  • foliations.


There will be four workshops during the trimester:

There will be a series of lecture courses aimed at postgraduate students and postdoctoral level researchers:

There will be a summer school directed at beginning PhD students:

There will also be a weekly seminar series on current research topics and a working seminar within that part of the program aimed at junior researchers.

Confirmed senior participants

A. Banerjee, D. Bahns, P. Baum, M. Benameur, S. Brain, A. Chamseddine, A. Connes, C. Consani, G. Cornelissen, J. Cuntz, L. Dabrowski, E. van Erp, F. Fathizadeh, Al. Gorokhovsky, H. Grosse, N. Higson, B. Iochum, J. Kaad, M. Khalkhali, M. Laca, G. Landi, N-P. Landsman, E. Langmann, T. Loring, X. Li, M. Marcolli, V. Mathai, B. Mesland, R. Meyer, H. Moscovici, S. Neshveyev, R. Nest, H. Oyono-Oyono, D. Perrot, M. Pflaum, P. Piazza, B. Rangipour, A. Rennie, T. Schick, A. Sitarz, F. Sukochev, R. Szabo, R. Verch, Zhizhang Xie, B. Yalkinoglu, G. Yu.