Summary
The Project aims to make significant advances to the field of noncommutative geometry by developing new methods through substantial interaction within sub-fields of noncommutative geometry and two other areas of pure mathematics. The main focus will be to determine the topological non-triviality of new types of quantum fibrations. Also, we aim to construct quantum metric geometries of crossed products and graph algebras relating the Lipschitz-norm and Dirac-operator approaches. The Project will combine various areas, which although interacting on the fundamental level, have had their concrete and usable connections mostly unexplored.
The success of the Project depends on connecting centres of excellence in relevant topics for the exchange of ideas and and production of high-quality collaborative results. The network has been carefully chosen to include the world's leading experts as well as promising early career researchers. Not only does this guarantee the participants access to an enormous knowledge base, it will also ensure that new and innovative lines of research will continue to be developed long after the Project has finished.
In particular, the collaborative nature of the project will be of great benefit to the early career researchers involved. In pure mathematics, fields often become so specialised that only a small number of people around the world might be actively researching a particular topic. This can make career progression very difficult. The interdisciplinary nature of the Project will expose the participants to a host of new mathematics and new collaborations. Consequently, this diversification will result in significantly more career opportunities than would otherwise be available.
The success of the Project depends on connecting centres of excellence in relevant topics for the exchange of ideas and and production of high-quality collaborative results. The network has been carefully chosen to include the world's leading experts as well as promising early career researchers. Not only does this guarantee the participants access to an enormous knowledge base, it will also ensure that new and innovative lines of research will continue to be developed long after the Project has finished.
In particular, the collaborative nature of the project will be of great benefit to the early career researchers involved. In pure mathematics, fields often become so specialised that only a small number of people around the world might be actively researching a particular topic. This can make career progression very difficult. The interdisciplinary nature of the Project will expose the participants to a host of new mathematics and new collaborations. Consequently, this diversification will result in significantly more career opportunities than would otherwise be available.
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More information & hyperlinks
| Web resources: | https://cordis.europa.eu/project/id/691246 |
| Start date: | 01-01-2016 |
| End date: | 31-12-2019 |
| Total budget - Public funding: | 589 500,00 Euro - 288 000,00 Euro |
Cordis data
Original description
The Project aims to make significant advances to the field of noncommutative geometry by developing new methods through substantial interaction within sub-fields of noncommutative geometry and two other areas of pure mathematics. The main focus will be to determine the topological non-triviality of new types of quantum fibrations. Also, we aim to construct quantum metric geometries of crossed products and graph algebras relating the Lipschitz-norm and Dirac-operator approaches. The Project will combine various areas, which although interacting on the fundamental level, have had their concrete and usable connections mostly unexplored.The success of the Project depends on connecting centres of excellence in relevant topics for the exchange of ideas and and production of high-quality collaborative results. The network has been carefully chosen to include the world's leading experts as well as promising early career researchers. Not only does this guarantee the participants access to an enormous knowledge base, it will also ensure that new and innovative lines of research will continue to be developed long after the Project has finished.
In particular, the collaborative nature of the project will be of great benefit to the early career researchers involved. In pure mathematics, fields often become so specialised that only a small number of people around the world might be actively researching a particular topic. This can make career progression very difficult. The interdisciplinary nature of the Project will expose the participants to a host of new mathematics and new collaborations. Consequently, this diversification will result in significantly more career opportunities than would otherwise be available.
Status
CLOSEDCall topic
MSCA-RISE-2015Update Date
28-04-2024
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Organisations
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| INSTYTUT MATEMATYCZNY POLSKIEJ AKADEMII NAUK (Coördinator)
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| KOBENHAVNS UNIVERSITET
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| REGENTS OF THE UNIVERSITY OF COLORADO
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| SCUOLA INTERNAZIONALE SUPERIORE DI STUDI AVANZATI DI TRIESTE
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| THE AUSTRALIAN NATIONAL UNIVERSITY
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| THE PENNSYLVANIA STATE UNIVERSITY
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| THE REGENTS OF THE UNIVERSITY OF CALIFORNIA
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| THE RESEARCH FOUNDATION OF STATE UNIVERSITY OF NEW YORK
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| The Fields Institute for Research in Mathematical Sciences
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| UNIVERSIDAD MICHOACANA DE SAN NICOLAS HIDALGO
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| UNIVERSITY OF ABERDEEN
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| UNIVERSITY OF DENVER COLORADO SEMINARY
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| UNIVERSITY OF GLASGOW
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| UNIVERSITY OF KANSAS CENTER FOR RESEARCH, INC
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| UNIVERSITY OF NEW BRUNSWICK