Marginal subgroup: Difference between revisions

Definition

Marginal subgroup for a single word

Suppose ${\displaystyle w}$ is a word in the letters ${\displaystyle x_1,x_2,\dots ,x_n}$ and ${\displaystyle G}$ is a group. The marginal subgroup for ${\displaystyle w}$ in ${\displaystyle G}$ is the set of all ${\displaystyle g\in G}$ such that:

${\displaystyle w(x_1,x_2,\dots ,x_n)=w(x_1,x_2,\dots ,g{x}_i,x_{i+1},\dots x_n)=w(x_1,x_2,\dots ,x_{i}g,x_{i+1},\dots ,x_n)\mathrm{\forall }{x}_1,x_2,\dots ,x_n\in G,\mathrm{\forall }i\in \{1,2,\dots ,n\}}$

That this set is a subgroup is readily verified.

Marginal subgroup for a collection of words

The marginal subgroup for a (possibly infinite) collection of words in a group is the intersection of the marginal subgroups for each of the words in that group.

Marginal subgroup for a variety

The marginal subgroup for a subvariety of the variety of groups is defined in the following equivalent ways:

1. It is the marginal subgroup for the collection of all words that become trivial in that variety.
2. It is the marginal subgroup for any collection of words that generates the variety, in the sense that a group is in the variety iff all those words are trivial in it.

Examples

Extreme examples

• The whole group is the marginal subgroup for the word ${\displaystyle w(x)=x}$.
• The trivial subgroup is the marginal subgroup for the empty word, i.e., the word that evaluates to the identity element for any element.

Commutator word and center

• The marginal subgroup for the commutator word ${\displaystyle [x_1,x_2]=x_1{x}_2{x}_1^{-1}{x}_2^{-1}}$ (this is the left-normed commutator, but the same holds for the right-normed commutator) is precisely the center.
• The marginal subgroup for a left-normed iterated commutator such as ${\displaystyle [\dots [x_1,x_2],x_3],\dots ,x_n]}$ is the ${\displaystyle (n-1{)}^{th}}$ member of the upper central series. (This is not completely obvious for ${\displaystyle n\ge 3}$).

Power words

• The marginal subgroup for the power word ${\displaystyle x^2}$ is the set of central elements of order dividing 2.

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Metaproperties

Relation with other properties

Stronger properties

Weaker properties

Dual property

The notion of marginal subgroup is somewhat dual to the notion of verbal subgroup, which is the subgroup generated by all elements realized using the given word.