Étale fundamental group
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The étale fundamental group is an analogue in algebraic geometry, for schemes, of the usual fundamental group of topological spaces.
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[edit] Topological analogue
In algebraic topology, the fundamental group
- π1(T)
of a connected topological space T is defined to be the group of loops based at a point modulo homotopy. When one wants to obtain something similar in the algebraic category, this definition encounters problems.
One cannot simply attempt to use the same definition, since the result will be wrong if one is working in positive characteristic. More to the point, the topology on a scheme fails to capture much of the structure of the scheme. Simply choosing the "loop" to be an algebraic curve is not appropriate either, since in the most familiar case (over the complex numbers) such a "loop" has two real dimensions rather than one.
[edit] Covering spaces
This discussion follows Milne[1].
In the classification of covering spaces, it is shown that the fundamental group is exactly the group of deck transformations of the universal covering space. This is more promising: surjective étale morphisms are the appropriate generalization of covering spaces. Unfortunately, the universal covering space is often an infinite covering of the original space, which is unlikely to yield anything manageable in the algebraic category. Finite coverings, on the other hand are tractable, so one can define the algebraic fundamental group as an inverse limit of automorphism groups.
Let X be a scheme, let x be a geometric point of X, and let C be the category of pairs (Y,f) such that is a finite étale morphism ("finite étale schemes over X"). Morphisms in this category are morphisms as schemes over X. This category has a natural functor given x, namely the functor
geometrically this is the fiber of over x, and abstractly it is the covariant Yoneda functor "co-represented" by x. The quotation marks are because is not in fact a finite étale morphism, so that F is not actually representable (in general). However, it is pro-representable, in fact by "Galois covers" of X; this means that we have a projective system indexed by a directed set I, where the Xi are of course finite étale schemes over X,
- and
- (the subscript C is to emphasize that this Hom-set is in the category C).
Note that for two such Xi,Xj the map induces a group homomorphism
which produces a projective system of automorphism groups from the projective system {Xi}. We then make the following definition: the étale fundamental group π1(X,x) of X at x is the inverse limit
[edit] GAGA results
The general comparison machinery called GAGA gives the connection in the case of a compact Riemann surface, or more general complex non-singular complete variety V. The algebraic fundamental group, as it is typically called in this case, is the profinite completion of π1(V).
[edit] Notes
- ^ James Milne, Lectures on Étale Cohomology (online course notes)
[edit] See also
- étale morphism
- topological space
- fundamental group
- classification of covering spaces
This article incorporates material from étale fundamental group on PlanetMath, which is licensed under the GFDL.