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Differential graded algebra

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In mathematics, in particular in homological algebra, algebraic topology, and algebraic geometry, a differential graded algebra (or DG-algebra, or DGA) is a graded associative algebra with an added chain complex structure that respects the algebra structure. In particular, DGAs have applications in rational homotopy theory.

Definition

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Let be a graded algebra. We say that is a differential graded algebra if it is equipped with a map of degree 1 (cochain complex convention) or degree −1 (chain complex convention). This map is a differential, giving the structure of a chain complex or cochain complex (depending on the degree of ), and satisfies graded Leibniz rule. Explicitly, the map satisfies

  1. , often written .
  2. , where is the degree of the homogeneous element .

A differential graded augmented algebra (or augmented DGA) is a DG-algebra equipped with a DG morphism to the ground ring (the terminology is due to Henri Cartan).[1]

Categorical Definition

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A more succinct way to state the same definition is to say that a DG-algebra is a monoid object in the monoidal category of chain complexes. A DG morphism between DG-algebras is a graded algebra homomorphism that respects the differential d.

Examples of DG-algebras

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Trivial DGAs

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First, we note that any graded algebra has the structure of a DGA with trivial differential, .

Tensor algebra

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The tensor algebra is a DGA with differential similar to that of the Koszul complex. For a vector space over a field there is a graded vector space defined as

where .

If is a basis for there is a differential on the tensor algebra defined component-wise

sending basis elements to

In particular we have and so

De-Rham algebra

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Let be a manifold. Then, the differential forms on , denoted by , naturally have the structure of a DGA. The grading is given by form degree, the multiplication is the wedge product, and the exterior derivative becomes the differential.

These have wide applications, including in derived deformation theory.[2] See also de Rham cohomology.

Singular cohomology

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The singular cohomology of a topological space with coefficients in is a DG-algebra: the differential is given by the Bockstein homomorphism associated to the short exact sequence , and the product is given by the cup product. This differential graded algebra was used to help compute the cohomology of Eilenberg–MacLane spaces in the Cartan seminar.[3][4]

Koszul complex

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One of the foundational examples of a differential graded algebra, widely used in commutative algebra and algebraic geometry, is the Koszul complex. This is because of its wide array of applications, including constructing flat resolutions of complete intersections, and from a derived perspective, they give the derived algebra representing a derived critical locus.

Other facts about DG-algebras

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The homology of a DG-algebra is a graded algebra. The homology of a DGA-algebra is an augmented algebra.

See also

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References

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  1. ^ Cartan, Henri (1954). "Sur les groupes d'Eilenberg-Mac Lane ". Proceedings of the National Academy of Sciences of the United States of America. 40 (6): 467–471. doi:10.1073/pnas.40.6.467. PMC 534072. PMID 16589508.
  2. ^ Manetti, Marco. "Differential graded Lie algebras and formal deformation theory" (PDF). Archived (PDF) from the original on 16 Jun 2013.
  3. ^ Cartan, Henri (1954–1955). "DGA-algèbres et DGA-modules". Séminaire Henri Cartan. 7 (1): 1–9.
  4. ^ Cartan, Henri (1954–1955). "DGA-modules (suite), notion de construction". Séminaire Henri Cartan. 7 (1): 1–11.