A group without normal subgroups different from the unit subgroup and the entire group (cf. Normal subgroup). The description of all finite simple groups is a central problem in the theory of finite groups (cf. Simple finite group). In the theory of infinite groups the significance of simple groups is substantially less, as they are difficult to visualize. The group of all even permutations fixing all but a finite number of elements of a set $M$ is simple if $M$ has cardinality at least 5. If $M$ is infinite, this group is infinite too. There exist finitely-generated, and even finitely-presented, infinite simple groups. Every group can be imbedded in a simple group. The definition of a simple group given here differs somewhat from that given in the theory of Lie groups and algebraic groups (cf. Lie group, semi-simple).
In the theory of infinite groups two notions stronger than simplicity are used, viz. those of an absolutely simple group and a strictly simple group. One has the implications: absolutely simple $\Rightarrow$ strictly simple $\Rightarrow$ simple. There are examples of simple groups that are not absolutely simple and of simple groups that are not strictly simple.
An algebraic group over an algebraically closed field is simple if it has no closed non-trivial normal subgroup. It is quasi-simple, or almost simple, if it has no non-trivial infinite normal subgroup. If $G$ is almost simple, then the abstract group $G/Z(G)$, where $Z(G)$ is the centre, is simple as an abstract group.
A Lie group is simple if it has no non-trivial Lie subgroup. For a connected Lie group this is the same as simplicity of its Lie algebra.
A topological group is called simple if it has no proper closed normal subgroup.
Both for algebraic groups and topological groups one also finds in the literature the definition that such a group is simple if it has no non-trivial closed connected normal subgroup.
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Simple group. Encyclopedia of Mathematics. URL: http://www.encyclopediaofmath.org/index.php?title=Simple_group&oldid=33646