Six operations
In mathematics, Grothendieck's six operations, named after Alexander Grothendieck, is a formalism in homological algebra, also known as the six-functor formalism.[1] It originally sprang from the relations in étale cohomology that arise from a morphism of schemes f : X → Y. The basic insight was that many of the elementary facts relating cohomology on X and Y were formal consequences of a small number of axioms. These axioms hold in many cases completely unrelated to the original context, and therefore the formal consequences also hold. The six operations formalism has since been shown to apply to contexts such as D-modules on algebraic varieties, sheaves on locally compact topological spaces, and motives.
The operations
[edit]The operations are six functors. Usually these are functors between derived categories and so are actually left and right derived functors.
- the direct image
- the inverse image
- the proper (or extraordinary) direct image
- the proper (or extraordinary) inverse image
- internal tensor product
- internal Hom
The functors and form an adjoint functor pair, as do and .[2] Similarly, internal tensor product is left adjoint to internal Hom.
Six operations in étale cohomology
[edit]Let f : X → Y be a morphism of schemes. The morphism f induces several functors. Specifically, it gives adjoint functors and between the categories of sheaves on X and Y, and it gives the functor of direct image with proper support. In the derived category, Rf! admits a right adjoint . Finally, when working with abelian sheaves, there is a tensor product functor ⊗ and an internal Hom functor, and these are adjoint. The six operations are the corresponding functors on the derived category: Lf*, Rf*, Rf!, f!, ⊗L, and RHom.
Suppose that we restrict ourselves to a category of -adic torsion sheaves, where is coprime to the characteristic of X and of Y. In SGA 4 III, Grothendieck and Artin proved that if f is smooth of relative dimension d, then is isomorphic to f!(−d)[−2d], where (−d) denote the dth inverse Tate twist and [−2d] denotes a shift in degree by −2d. Furthermore, suppose that f is separated and of finite type. If g : Y′ → Y is another morphism of schemes, if X′ denotes the base change of X by g, and if f′ and g′ denote the base changes of f and g by g and f, respectively, then there exist natural isomorphisms:
Again assuming that f is separated and of finite type, for any objects M in the derived category of X and N in the derived category of Y, there exist natural isomorphisms:
If i is a closed immersion of Z into S with complementary open immersion j, then there is a distinguished triangle in the derived category:
where the first two maps are the counit and unit, respectively of the adjunctions. If Z and S are regular, then there is an isomorphism:
where 1Z and 1S are the units of the tensor product operations (which vary depending on which category of -adic torsion sheaves is under consideration).
If S is regular and g : X → S, and if K is an invertible object in the derived category on S with respect to ⊗L, then define DX to be the functor RHom(—, g!K). Then, for objects M and M′ in the derived category on X, the canonical maps:
are isomorphisms. Finally, if f : X → Y is a morphism of S-schemes, and if M and N are objects in the derived categories of X and Y, then there are natural isomorphisms:
See also
[edit]- Coherent duality
- Grothendieck local duality
- Image functors for sheaves
- Verdier duality
- Change of rings
References
[edit]- ^ Gallauer, Martin (2021). "An introduction to six-functor formalism" (PDF).
- ^ Fausk, H.; P. Hu; J. P. May (2003). "Isomorphisms between left and right adjoints" (PDF). Theory Appl. Categ.: 107–131. arXiv:math/0206079. Bibcode:2002math......6079F. Retrieved 6 June 2013.
- Laszlo, Yves; Olsson, Martin (2005). "The six operations for sheaves on Artin stacks I: Finite coefficients". arXiv:math/0512097.
- Ayoub, Joseph. Les six opérations de Grothendieck et le formalisme des cycles évanescents dans le monde motivique (PDF) (Thesis).
- Cisinski, Denis-Charles; Déglise, Frédéric (2019). Triangulated categories of mixed motives. Springer Monographs in Mathematics. arXiv:0912.2110. doi:10.1007/978-3-030-33242-6. ISBN 978-3-030-33241-9. S2CID 115163824.
- Mebkhout, Zoghman (1989). Le formalisme des six opérations de Grothendieck pour les DX-modules cohérents. Travaux en Cours. Vol. 35. Paris: Hermann. ISBN 2-7056-6049-6.