AMS Bookstore LOGO amslogo
AMS TextbooksAMS Applications-related Books
Topics in Noncommutative Geometry
Edited by: Guillermo Cortiñas, Universidad de Buenos Aires, Argentina
A co-publication of the AMS and Clay Mathematics Institute.

Clay Mathematics Proceedings
2012; 276 pp; softcover
Volume: 16
ISBN-10: 0-8218-6864-0
ISBN-13: 978-0-8218-6864-5
List Price: US$79
Member Price: US$63.20
Order Code: CMIP/16
[Add Item]

Luis Santaló Winter Schools are organized yearly by the Mathematics Department and the Santaló Mathematical Research Institute of the School of Exact and Natural Sciences of the University of Buenos Aires (FCEN). This volume contains the proceedings of the third Luis Santaló Winter School which was devoted to noncommutative geometry and held at FCEN July 26-August 6, 2010.

Topics in this volume concern noncommutative geometry in a broad sense, encompassing various mathematical and physical theories that incorporate geometric ideas to the study of noncommutative phenomena. It explores connections with several areas including algebra, analysis, geometry, topology and mathematical physics.

Bursztyn and Waldmann discuss the classification of star products of Poisson structures up to Morita equivalence. Tsygan explains the connections between Kontsevich's formality theorem, noncommutative calculus, operads and index theory. Hoefel presents a concrete elementary construction in operad theory. Meyer introduces the subject of \(\mathrm{C}^*\)-algebraic crossed products. Rosenberg introduces Kasparov's \(KK\)-theory and noncommutative tori and includes a discussion of the Baum-Connes conjecture for \(K\)-theory of crossed products, among other topics. Lafont, Ortiz, and Sánchez-García carry out a concrete computation in connection with the Baum-Connes conjecture. Zuk presents some remarkable groups produced by finite automata. Mesland discusses spectral triples and the Kasparov product in \(KK\)-theory. Trinchero explores the connections between Connes' noncommutative geometry and quantum field theory. Karoubi demonstrates a construction of twisted \(K\)-theory by means of twisted bundles. Tabuada surveys the theory of noncommutative motives.

Titles in this series are co-published with the Clay Mathematics Institute (Cambridge, MA).


Graduate students and research mathematicians interested in various aspects of noncommutative geometry.

Powered by MathJax

  AMS Home | Comments:
© Copyright 2014, American Mathematical Society
Privacy Statement

AMS Social

AMS and Social Media LinkedIn Facebook Podcasts Twitter YouTube RSS Feeds Blogs Wikipedia