Baer norm

This article is about a definition in group theory that is standard among the group theory community (or sub-community that dabbles in such things) but is not very basic or common for people outside.
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This article defines a subgroup-defining function, viz., a rule that takes a group and outputs a unique subgroup
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Definition

Symbol-free definition

The Baer norm of a group is defined in the following equivalent ways:

• It is the intersection of normalizers of all its subgroups
• It is the intersection of normalizers of all cyclic subgroups.
• It is the set of those elements of the group for which the corresponding conjugation is a power automorphism.

Definition with symbols

The Baer norm of a group ${\displaystyle G}$ is defined as the intersection, over all subgroups ${\displaystyle H}$ of ${\displaystyle G}$ of the groups ${\displaystyle N_{G}(H)}$.

In terms of the intersect-all operator

This property is obtained by applying the intersect-all operator to the property: normalizer subgroup
View other properties obtained by applying the intersect-all operator

Property theory

Reverse monotonicity

The Baer norm subgroup-defining function is weakly reverse monotone, that is, if ${\displaystyle K}$ is a subgroup of ${\displaystyle G}$ containing the Baer norm of ${\displaystyle G}$, then the Baer norm of ${\displaystyle K}$ contains the Baer norm of ${\displaystyle H}$.

Idempotence and iteration

The Baer norm of a group equals its own Baer norm. A group equals its own Baer norm if and only if it is a Dedekind group, that is, every subgroup in it is normal.

Quotient-idempotence and quotient-iteration

The quotient function corresponding to the Baer norm is not transitive.

Relation with other subgroup-defining functions

The Baer norm of a group contains the center of the group.

For full proof, refer: Baer norm contains center