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Higher-dimensional algebra

From Wikipedia, the free encyclopedia

In mathematics, especially (higher) category theory, higher-dimensional algebra is the study of categorified structures. It has applications in nonabelian algebraic topology, and generalizes abstract algebra.

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Transcription

Higher-dimensional categories

Main article: Category theory § Higher-dimensional categories

A first step towards defining higher dimensional algebras is the concept of 2-category of higher category theory, followed by the more 'geometric' concept of double category.[1] [2][3]

A higher level concept is thus defined as a category of categories, or super-category, which generalises to higher dimensions the notion of category – regarded as any structure which is an interpretation of Lawvere's axioms of the elementary theory of abstract categories (ETAC).[4][5][6][7] Thus, a supercategory and also a super-category, can be regarded as natural extensions of the concepts of meta-category,[8] multicategory, and multi-graph, k-partite graph, or colored graph (see a color figure, and also its definition in graph theory).

Supercategories were first introduced in 1970,[9] and were subsequently developed for applications in theoretical physics (especially quantum field theory and topological quantum field theory) and mathematical biology or mathematical biophysics.[10]

Other pathways in higher-dimensional algebra involve: bicategories, homomorphisms of bicategories, variable categories (also known as indexed or parametrized categories), topoi, effective descent, and enriched and internal categories.

Double groupoids

Main article: double groupoid

In higher-dimensional algebra (HDA), a double groupoid is a generalisation of a one-dimensional groupoid to two dimensions,[11] and the latter groupoid can be considered as a special case of a category with all invertible arrows, or morphisms.

Double groupoids are often used to capture information about geometrical objects such as higher-dimensional manifolds (or n-dimensional manifolds).[11] In general, an n-dimensional manifold is a space that locally looks like an n-dimensional Euclidean space, but whose global structure may be non-Euclidean.

Double groupoids were first introduced by Ronald Brown in Double groupoids and crossed modules (1976),[11] and were further developed towards applications in nonabelian algebraic topology.[12][13][14][15] A related, 'dual' concept is that of a double algebroid, and the more general concept of R-algebroid.

Nonabelian algebraic topology

See Nonabelian algebraic topology

Applications

Theoretical physics

In quantum field theory, there exist quantum categories.[16][17][18] and quantum double groupoids.[18] One can consider quantum double groupoids to be fundamental groupoids defined via a 2-functor, which allows one to think about the physically interesting case of quantum fundamental groupoids (QFGs) in terms of the bicategory Span(Groupoids), and then constructing 2-Hilbert spaces and 2-linear maps for manifolds and cobordisms. At the next step, one obtains cobordisms with corners via natural transformations of such 2-functors. A claim was then made that, with the gauge group SU(2), "the extended TQFT, or ETQFT, gives a theory equivalent to the Ponzano–Regge model of quantum gravity";[18] similarly, the Turaev–Viro model would be then obtained with representations of SUq(2). Therefore, one can describe the state space of a gauge theory – or many kinds of quantum field theories (QFTs) and local quantum physics, in terms of the transformation groupoids given by symmetries, as for example in the case of a gauge theory, by the gauge transformations acting on states that are, in this case, connections. In the case of symmetries related to quantum groups, one would obtain structures that are representation categories of quantum groupoids,[16] instead of the 2-vector spaces that are representation categories of groupoids.

Quantum physics

See also

Notes

  1. ^ "Double Categories and Pseudo Algebras" (PDF). Archived from the original (PDF) on 2010-06-10.
  2. ^ Brown, R.; Loday, J.-L. (1987). "Homotopical excision, and Hurewicz theorems, for n-cubes of spaces". Proceedings of the London Mathematical Society. 54 (1): 176–192. CiteSeerX 10.1.1.168.1325. doi:10.1112/plms/s3-54.1.176.
  3. ^ Batanin, M.A. (1998). "Monoidal Globular Categories As a Natural Environment for the Theory of Weak n-Categories". Advances in Mathematics. 136 (1): 39–103. doi:10.1006/aima.1998.1724.
  4. ^ Lawvere, F. W. (1964). "An Elementary Theory of the Category of Sets". Proceedings of the National Academy of Sciences of the United States of America. 52 (6): 1506–1511. Bibcode:1964PNAS...52.1506L. doi:10.1073/pnas.52.6.1506. PMC 300477. PMID 16591243.
  5. ^ Lawvere, F. W.: 1966, The Category of Categories as a Foundation for Mathematics., in Proc. Conf. Categorical Algebra – La Jolla., Eilenberg, S. et al., eds. Springer-Verlag: Berlin, Heidelberg and New York., pp. 1–20. http://myyn.org/m/article/william-francis-lawvere/ Archived 2009-08-12 at the Wayback Machine
  6. ^ "Kryptowährungen und Physik". PlanetPhysics. 29 March 2024.
  7. ^ Lawvere, F. W. (1969b). "Adjointness in Foundations". Dialectica. 23 (3–4): 281–295. CiteSeerX 10.1.1.386.6900. doi:10.1111/j.1746-8361.1969.tb01194.x. Archived from the original on 2009-08-12. Retrieved 2009-06-21.
  8. ^ "Axioms of Metacategories and Supercategories". PlanetPhysics. Archived from the original on 2009-08-14. Retrieved 2009-03-02.
  9. ^ "Supercategory theory". PlanetMath. Archived from the original on 2008-10-26.
  10. ^ "Mathematical Biology and Theoretical Biophysics". PlanetPhysics. Archived from the original on 2009-08-14. Retrieved 2009-03-02.
  11. ^ a b c Brown, Ronald; Spencer, Christopher B. (1976). "Double groupoids and crossed modules". Cahiers de Topologie et Géométrie Différentielle Catégoriques. 17 (4): 343–362.
  12. ^ "Non-commutative Geometry and Non-Abelian Algebraic Topology". PlanetPhysics. Archived from the original on 2009-08-14. Retrieved 2009-03-02.
  13. ^ Non-Abelian Algebraic Topology book Archived 2009-06-04 at the Wayback Machine
  14. ^ Nonabelian Algebraic Topology: Higher homotopy groupoids of filtered spaces
  15. ^ Brown, Ronald; Higgins, Philip; Sivera, Rafael (2011). Nonabelian Algebraic Topology. arXiv:math/0407275. doi:10.4171/083. ISBN 978-3-03719-083-8.
  16. ^ a b "Quantum category". PlanetMath. Archived from the original on 2011-12-01.
  17. ^ "Associativity Isomorphism". PlanetMath. Archived from the original on 2010-12-17.
  18. ^ a b c Morton, Jeffrey (March 18, 2009). "A Note on Quantum Groupoids". C*-algebras, deformation theory, groupoids, noncommutative geometry, quantization. Theoretical Atlas.

Further reading

This page was last edited on 14 April 2024, at 07:02
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