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Operator algebras II: Graph C*-Algebras
Graph C*-algebras are a class of C*-algebras constructed from directed graphs. They form a bridge between algebra, analysis, and combinatorics. Their origins trace back to the 1980s with the work of Cuntz and Krieger, who introduced what are now called Cuntz–Krieger algebras. These arose in the study of Markov processes and symbolic dynamics.
In the 1990s, it was realized that Cuntz–Krieger algebras could be seen as special cases of a broader class: graph C*-algebras. Since then, a rich field of research has developed, touching on dynamical systems, K-theory, Morita equivalence, groupoid theory, and more.
Graph C*-algebras are not only concrete and accessible but also offer deep insights into structural questions: When is a C*-algebra simple? What does its ideal structure look like? How can such algebras be classified? These questions can often be tackled explicitly in the graph-theoretic setting.
Lecture and exercise sessions
Lecturer: Prof. Dr. Moritz Weber
Assistant: Jonas Metzinger
Lecture time: Doodle
Exercise sessions: tba
Contents
- Definition of Cuntz-Krieger families, graph C*-algebras
- Gauge actions, Uniqueness theorems for graph C*-algebras
- Simplicity and ideal structure
- Moves on graph C*-algebras
Further content will be included in the exercises.
Language
The course will be taught in English unless all participants speak German.
Prerequisites
Knowledge about C*-algebras and universal C*-algebras as in the ISEM 24 lecture notes is required.
Exercise sessions
There will be exercise sessions every two weeks, starting in the second week of lecture time (20.-26. October).
The exercise sessions will be structured as a small seminar. At the beginning of the semester, you will be given a selection of topics to choose from. You will then prepare these in pairs and give together a presentation (60 to 90 minutes) on them.
In the week before (!) the presentation, you will meet with Jonas to discuss the presentation.
There will be a sheet for each topic, which will tell you what to focus on. Keep in mind that some topics can seem very technical, so start asking questions right at the beginning of your preparation.
| Week | Topic | Talk is given by |
|---|---|---|
| 20.10.- 26.10. | Projections and (partial) isometries | ------- |
| 17.11.- 23.11. | Hypergraph C*-algebras | |
| 01.12.- 07.11. | Cuntz-Pimsner algebras | |
| 15.12.- 21.12. | Higher rank graphs | |
| 05.01.- 11.01. | Étale groupoids and graph C*-algebras | |
| 19.01.- 25.01. | Topological graphs | |
| 02.02.- 08.02. | Classification of graph C*-algebras via K-theory |
Depending on the number of students, this time plan may be modified to allow for more preparation time and to incorporate any necessary additions to the lecture.
Exam and admission requirements
There will be an oral exam. You can obtain 4.5 CP. To be admitted, you must attend the exercises regularly and have given a talk.
Your presentation topic will also be a small part of the oral exam.
Literature
Basics on C*-algebras and universal C*-algebras:
- ISEM 24 lecture notes
- Bruce Blackadar, Operator algebras. Theory of C*-algebras and von Neumann algebras, 2006.
- Kenneth Davidson, C*-algebras by example, 1996.
- Gerard Murphy, C*-algebras and operator theory, 1990.
The lecture notes by Ian Raeburn are used as the main source for graph C*-algebras:
- Ian Raeburn, "Graph algebras.", 2004
- Sørensen, Adam PW. "Geometric classification of simple graph algebras.", 2011
- Alex Kumjian, David Pask, Iain Raeburn, Jean Renault. "Graphs, Groupoids, and Cuntz–Krieger Algebras.", 1996