Profinite group


In mathematics, profinite groups are topological groups that are in a certain sense assembled from finite groups. They share many properties with their finite quotients: for example, both Lagrange's theorem and the Sylow theorems generalise well to profinite groups.
A non-compact generalization of a profinite group is a locally profinite group.

Definition

Profinite groups can be defined in either of two equivalent ways.

First definition

A profinite group is a topological group that is isomorphic to the inverse limit of an inverse system of discrete finite groups. In this context, an inverse system consists of a directed set , a collection of finite groups, each having the discrete topology, and a collection of homomorphisms such that is the identity on and the collection satisfies the composition property. The inverse limit is the set:
equipped with the relative product topology. In categorical terms, this is a special case of a cofiltered limit construction. One can also define the inverse limit in terms of a universal property.

Second definition

A profinite group is a Hausdorff, compact, and totally disconnected topological group: that is, a topological group that is also a Stone space. Given this definition, it is possible to recover the first definition using the inverse limit where ranges through the open normal subgroups of ordered by inclusion.

Examples

Given an arbitrary group, there is a related profinite group, the profinite completion of. It is defined as the inverse limit of the groups, where runs through the normal subgroups in of finite index. There is a natural homomorphism, and the image of under this homomorphism is dense in. The homomorphism is injective if and only if the group is residually finite.
The homomorphism is characterized by the following universal property: given any profinite group and any group homomorphism, there exists a unique continuous group homomorphism with.

Ind-finite groups

There is a notion of ind-finite group, which is the conceptual dual to profinite groups; i.e. a group G is ind-finite if it is the direct limit of an inductive system of finite groups. The usual terminology is different: a group G is called locally finite if every finitely-generated subgroup is finite. This is equivalent, in fact, to being 'ind-finite'.
By applying Pontryagin duality, one can see that abelian profinite groups are in duality with locally finite discrete abelian groups. The latter are just the abelian torsion groups.

Projective profinite groups

A profinite group is projective if it has the lifting property for every extension. This is equivalent to saying that G is projective if for every surjective morphism from a profinite HG there is a section GH.
Projectivity for a profinite group G is equivalent to either of the two properties:
Every projective profinite group can be realized as an absolute Galois group of a pseudo algebraically closed field. This result is due to Alexander Lubotzky and Lou van den Dries.