In mathematics, more precisely, in the theory of simplicial sets, the Dold–Kan correspondence (named after Albrecht Dold and Daniel Kan) states[1] that there is an equivalence between the category of (nonnegatively graded) chain complexes and the category of simplicial abelian groups. Moreover, under the equivalence, the th homology group of a chain complex is the th homotopy group of the corresponding simplicial abelian group, and a chain homotopy corresponds to a simplicial homotopy. (In fact, the correspondence preserves the respective standard model structures.)

Example: Let C be a chain complex that has an abelian group A in degree n and zero in all other degrees. Then the corresponding simplicial group is the Eilenberg–MacLane space .

There is also an ∞-category-version of the Dold–Kan correspondence.[2]

The book "Nonabelian Algebraic Topology" cited below has a Section 14.8 on cubical versions of the Dold–Kan theorem, and relates them to a previous equivalence of categories between cubical omega-groupoids and crossed complexes, which is fundamental to the work of that book.

Detailed construction

The Dold-Kan correspondence between the category sAb of simplicial abelian groups and the category Ch≥0(Ab) of nonnegatively graded chain complexes can be constructed explicitly through a pair of functors[1]pg 149 so that the compositions of these functors are naturally isomorphic to the respective identity functors. The first functor is the normalized chain complex functor

and the second functor is the "simplicialization" functor

constructing a simplicial abelian group from a chain complex.

Normalized chain complex

Given a simplicial abelian group there is a chain complex called the normalized chain complex with terms

and differentials given by

These differentials are well defined because of the simplicial identity

showing the image of is in the kernel of each . This is because the definition of gives . Now, composing these differentials gives a commutative diagram

and the composition map . This composition is the zero map because of the simplicial identity

and the inclusion , hence the normalized chain complex is a chain complex in . Because a simplicial abelian group is a functor

and morphisms are given by natural transformations, meaning the maps of the simplicial identities still hold, the normalized chain complex construction is functorial.

References

  1. 1 2 Goerss & Jardine (1999), Ch 3. Corollary 2.3
  2. Lurie, § 1.2.4.
  • Goerss, Paul G.; Jardine, John F. (1999). Simplicial Homotopy Theory. Progress in Mathematics. Vol. 174. Basel, Boston, Berlin: Birkhäuser. ISBN 978-3-7643-6064-1.
  • Lurie, J. "Higher Algebra" (PDF). last updated August 2017
  • Mathew, Akhil. "The Dold–Kan correspondence" (PDF). Archived from the original (PDF) on 2016-09-13.
  • Brown, Ronald; Higgins, Philip J.; Sivera, Rafael (2011). Nonabelian Algebraic Topology: filtered spaces, crossed complexes, cubical homotopy groupoids. Tracts in Mathematics. Vol. 15. Zurich: European Mathematical Society. ISBN 978-3-03719-083-8.

Further reading

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