Difference between revisions of "Automorphism"
From Online Dictionary of Crystallography
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| − | < | + | <font color="blue">Automorphisme</font> (''Fr''). <font color="red">Automorphismus</font> (''Ge''). <font color="black">Automorfismo</font> (''It''). <font color="purple">自己同形</font> (''Ja''). <font color="green">Automorfismo</font> (''Sp''). |
==Definition== | ==Definition== | ||
Latest revision as of 18:11, 8 November 2017
Automorphisme (Fr). Automorphismus (Ge). Automorfismo (It). 自己同形 (Ja). Automorfismo (Sp).
Definition
An isomorphism from a group (G,*) to itself is called an automorphism of this group. It is a bijection f : G → G such that
f (g) * f (h) = f (g * h)
An automorphism preserves the structural properties of a group, e.g.
- The identity element of G is mapped to itself.
- Subgroups are mapped to subgroups, normal subgroups to normal subgroups.
- Conjugacy classes are mapped to conjugacy classes (the same or another).
- The image f(g) of an element g has the same order as g.
The composition of two automorphisms is again an automorphism, and with composition as binary operation the set of all automorphisms of a group G, denoted by Aut(G), forms itself a group, the automorphism group of G.
Inner automorphism
An inner automorphism of a group G is a function
fa : G → G
defined by
fa(g) = aga−1
for all g in G, where a is a given fixed element of G.
The operation aga−1 is called conjugation by a (see also conjugacy class).
The inner automorphisms form a normal subgroup of Aut(G), called the inner automorphism group and denoted by Inn(G).
The inner automorphism group is isomorphic to the quotient of G by its centre Z(G). In particular, for Abelian groups the inner automorphism group consists just of the trivial automorphism.
Outer automorphism
The outer automorphism group of a group G is the quotient of the automorphism group Aut(G) by its inner automorphism group Inn(G). The outer automorphism group is usually denoted by Out(G).
For Abelian groups the mapping g → g-1 is an outer automorphism, whereas for non-Abelian groups this mapping is not even a homomorphism.