|
|
|
|
noncommutative geometry
|
(Topic)
|
|
|
Noncommutative geometry utilizes non-Abelian (or nonabelian) methods for quantization of spaces through deformation to non-commutative 'spaces' (in fact non-commutative algebraic structures, or algebras of functions).
An alternative meaning is often given to noncommutative geometry (viz . A Connes et al.): that is, as a non-commutative `geometric' approach- in the relativistic sense- to quantum gravity.
A specific example due to A. Connes is the convolution $C^*$ -algebra of (discrete) groups; other examples are non-commutative $C^*$ -algebras of operators defined on Hilbert spaces of quantum operators and states.
- The Royal Swedish Academy of Sciences has awarded the 2001 Crafoord Prize in mathematics to Professor Alain Connes of the Institut des Hautes Études Scientifiques (IHES) and the Collége de France, Paris, ``for his penetrating work on the theory of... (quantum)... operator algebras and for having been a founder of noncommutative geometry''. (Crafoord Prize in 2001 in Noncommutative Geometry and Quantum Operator Algebras).
Professor Alain Connes is also the 1983 recipient of the Field Medal. The following is a concise quote of his work from the Crafoord Prize announcement in 2001: ``Noncommutative geometry is a new field of mathematics, and Connes played a decisive role in its creation. His work has also provided powerful new methods for treating renormalization theory and the standard model of quantum and particle physics...(SUSY)... He has demonstrated that these new mathematical tools can be used for understanding and attacking the Riemann Hypothesis.''
- ``The Crafoord Prize prize consisted of a gold medal and US dollars 500,000. The Anna-Greta and Holger Crafoord Foundation was established in 1980 for promoting basic research in mathematics, astronomy, the biosciences (particularly ecology), the geosciences, and polyarthritis (joint rheumatism)''. Previous (`Nobel style'), Crafoord Laureates in Mathematics were: Vladimir I. Arnold and Louis Nirenberg in 1982, Alexandre Grothendieck (who publicly declined the prize) and Pierre Deligne-who accepted the prize in 1988, and Simon Donaldson and Shing-Tung Yau (1994).
|
"noncommutative geometry" is owned by bci1.
|
|
(view preamble | get metadata)
See Also:  -algebra, spin groups, Fields medal, Crafoord Prize, compact quantum groupoids related to C*-algebras, nuclear C*-algebra, quantum gravity theories, mathematical programs in quantum gravity, quantum geometry, quantum Riemannian geometry, topics in algebraic topology
| Other names: |
nonabelian algebraic topology, non-commutative geometry, non-Abelian geometry, anabelian geometry, non-Abelian topology (NAAT), noncommutative topology, non-commutative topology |
| Also defines: |
`Geometry' of quantum spaces in terms of non-commutative algebras of functions and quantum operators, or `spectral (quantum) triples' |
| Keywords: |
C*-algebras, Quantum Gravity Theories, `deformation-quantization' of (commutative) spaces |
|
|
Cross-references: Simon Donaldson, field, IHES, Crafoord Prize, Hilbert spaces, operators, groups, discrete, convolution, quantum gravity, viz, functions, algebras, algebraic structures, non-commutative, deformation, quantization, non-Abelian
There are 19 references to this entry.
This is version 27 of noncommutative geometry, born on 2008-07-18, modified 2009-02-02.
Object id is 10818, canonical name is NoncommutativeGeometry.
Accessed 3153 times total.
Classification:
| AMS MSC: | 81T75 (Quantum theory :: Quantum field theory; related classical field theories :: Noncommutative geometry methods) |
|
|
|
|
|
|
Pending Errata and Addenda
|
|
|
|
|
|
|
|
|
|
|
