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Homological Invariants of Deformations of Groups and Algebras

Project description

Extending homological algebra methods to the study of dynamical systems

Homological algebra studies the homological functors and the intricate algebraic structures that they entail. It extracts the information contained in chain complexes and present it in the form of homological invariants of rings, modules, topological spaces and other mathematical objects. Funded by the Marie Skłodowska-Curie Actions programme, the HIDRA project aims to further advance methods of homological algebra using novel techniques based on triangulated categories, homotopy theory and index theory. Focus will be placed on the Baum-Connes conjecture, which will be related to the computation of K-theoretic and homological invariants for notable dynamical systems. Project results will have important impact on pure mathematics, solid-state physics and quantum information theory.


"The pervasive role of algebraic topology in mathematics is proof of the powerful effects that homological invariants produce in the development of the discipline. Extending these techniques beyond the category of topological spaces, in order to include ""quantized"" systems arising from dynamical systems and (quantum) groups, is going to be extremely useful to make fast progress in these fields. The framework of operator algebras and noncommutative geometry is extremely well-suited for these developments and has already been applied with some success. The goal of this proposal is to further develop these homological techniques by supporting them with novel methods based on triangulated categories, homotopy theory, and index theory. The research problems tackled in this Action are deeply related to important topics which attracted a great deal of interest in the mathematical community. For example, we study the celebrated Baum-Connes conjecture (for both groupoids and quantum groups) through a relatively unexplored perspective and relate it to the computation of K-theoretic and homological invariants for notable dynamical systems (e.g. Smale's Axiom A diffeomorphisms). This research will provide mathematicians with both conceptually new approaches and powerful computational tools. Some of these results are relevant not only for pure mathematics, but also for solid-state physics and quantum information theory. This Action will take us one step closer to the solution of significant problems or the formulation of more and more refined research questions. This fellowship will allow V. Proietti to work under the supervision of M. Yamashita (a world-class expert on quantum groups) at the University of Oslo (a leading institution in operator algebras). It will expand the fellow's technical expertise and integrate it with essential management, administrative, and dissemination skills which will help V. Proietti reach a position of professional maturity."


Net EU contribution
€ 210 911,04
0313 Oslo

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Norge Oslo og Viken Oslo
Activity type
Higher or Secondary Education Establishments
Total cost
No data