Almost simple group

In mathematics, a group is said to be almost simple if it contains a non-abelian simple group and is contained within the automorphism group of that simple group – that is, if it fits between a (non-abelian) simple group and its automorphism group. In symbols, a group A is almost simple if there is a (non-abelian) simple group S such that $S\leq A\leq \operatorname {Aut} (S).$

Examples[edit]

Trivially, non-abelian simple groups and the full group of automorphisms are almost simple, but proper examples exist, meaning almost simple groups that are neither simple nor the full automorphism group.
For $n=5$ or $n\geq 7,$ the symmetric group $\mathrm {S} _{n}$ is the automorphism group of the simple alternating group $\mathrm {A} _{n},$ so $\mathrm {S} _{n}$ is almost simple in this trivial sense.
For $n=6$ there is a proper example, as $\mathrm {S} _{6}$ sits properly between the simple $\mathrm {A} _{6}$ and $\operatorname {Aut} (\mathrm {A} _{6}),$ due to the exceptional outer automorphism of $\mathrm {A} _{6}.$ Two other groups, the Mathieu group $\mathrm {M} _{10}$ and the projective general linear group $\operatorname {PGL} _{2}(9)$ also sit properly between $\mathrm {A} _{6}$ and $\operatorname {Aut} (\mathrm {A} _{6}).$

Properties[edit]

The full automorphism group of a non-abelian simple group is a complete group (the conjugation map is an isomorphism to the automorphism group), but proper subgroups of the full automorphism group need not be complete.

Structure[edit]

By the Schreier conjecture, now generally accepted as a corollary of the classification of finite simple groups, the outer automorphism group of a finite simple group is a solvable group. Thus a finite almost simple group is an extension of a solvable group by a simple group.

Notes[edit]

External links[edit]

Almost simple group at the Group Properties wiki

Examples[edit]

Properties[edit]

Structure[edit]

See also[edit]

Notes[edit]

External links[edit]