1. Definitions

2. Grothendieck's theorem

3. Schlessinger's representation theorem

4. References

In algebra, Schlessinger's theorem is a theorem in deformation theory introduced by {{harvs|txt|last=Schlessinger|authorlink=Michael Schlessinger|year=1968}} that gives conditions for a functor of artinian local rings to be pro-representable, refining an earlier theorem of Grothendieck.

Definitions

Λ is a complete Noetherian local ring with residue field k, and C is the category of local Artinian Λ-algebras (meaning in particular that as modules over Λ they are finitely generated and Artinian) with residue field k.

A small extension in C is a morphism Y→Z in C that is surjective with kernel a 1-dimensional vector space over k.

A functor is called representable if it is of the form h_X where h_X(Y)=hom(X,Y) for some X, and is called pro-representable if it is of the form Y→lim hom(X_i,Y) for a filtered direct limit over i in some filtered ordered set.

A morphism of functors F→G from C to sets is called smooth if whenever Y→Z is an epimorphism of C, the map from F(Y) to F(Z)×_G(Z)G(Y) is surjective. This definition is closely related to the notion of a formally smooth morphism of schemes. If in addition the map between the tangent spaces of F and G is an isomorphism, then F is called a hull of G.

Grothendieck's theorem

By taking the projective limit of the pro-representable functor in the larger category of linearly topologized local rings, one obtains a complete linearly topologized local ring representing the functor.

Schlessinger's representation theorem

One difficulty in applying Grothendieck's theorem is that it can be hard to check that a functor preserves all pullbacks. Schlessinger showed that it is sufficient to check that the functor preserves pullbacks of a special form, which is often easier to check. Schlessinger's theorem also gives conditions under which the functor has a hull, even if it is not representable.

Schessinger's theorem gives conditions for a set-valued functor F on C to be representable by a complete local Λ-algebra R with maximal ideal m such that R/mⁿ is in C for all n.

Schlessinger's theorem states that a functor from C to sets with F(k) a 1-element set is representable by a complete Noetherian local algebra if it has the following properties, and has a hull if it has the first three properties:

• H1: The map F(Y×_XZ)→F(Y)×_F(X)F(Z) is surjective whenever Z→X is a small extension in C and Y→X is some morphism in C.
• H2: The map in H1 is a bijection whenever Z→X is the small extension k[x]/(x²)→k.
• H3: The tangent space of F is a finite-dimensional vector space over k.
• H4: The map in H1 is a bijection whenever Y=Z is a small extension of X and the maps from Y and Z to X are the same.

References

• {{citation|last=Grothendieck|url=http://www.numdam.org/item?id=SB_1958-1960__5__369_0 |title= Technique de descente et théorèmes d'existence en géométrie algébrique, II. Le théorème d'existence en théorie formelle des modules|series=Séminaire Bourbaki |volume= 12|year=1960|issue= 195}}
• {{Citation | last1=Schlessinger | first1=Michael | title=Functors of Artin rings | jstor=1994967 |mr=0217093 | year=1968 | journal=Transactions of the American Mathematical Society | issn=0002-9947 | volume=130 | pages=208–222 | doi=10.2307/1994967}}

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