Graph automorphism
An isomorphic mapping of a graph onto itself (cf. Graph isomorphism). The set of all automorphisms of a given graph forms a group with respect to the operation of composition of automorphisms. The automorphisms of a graph 
generate a group 
of permutations of vertices, which is called the group (or vertex group) of 
, and a group of edge permutations 
, called the edge group of 
. The edge group and vertex group of a graph 
without loops and multiple edges are isomorphic if and only if 
contains not more than one isolated vertex and if none of its connected components is an isolated edge. For each finite group 
there exists a graph whose automorphism group is isomorphic to 
. There also exist permutation groups on a set of 
elements which are not the vertex group of any graph with 
vertices. Various types and measures of symmetry of a graph can be related to its automorphisms. A graph with no automorphisms other than the identical one is said to be asymmetric. If 
, almost all graphs with 
vertices are asymmetric.
References
| [1] | F. Harary, "Graph theory" , Addison-Wesley (1969) pp. Chapt. 9 |
Comments
The fact that for a finite group 
there is a graph with automorphism group 
is due to R. Frucht [a3]. A good reference for this and other algebraic aspects of graph theory is [a1]. A related reference is [a2].
References
| [a1] | N. Biggs, "Algebraic graph theory" , Cambridge Univ. Press (1974) |
| [a2] | N. Biggs, "Finite groups of automorphisms" , Cambridge Univ. Press (1971) |
| [a3] | R. Frucht, "Herstellung von Graphen mit vorgegebener abstrakter Gruppe" Compos. Math. , 6 (1938) pp. 239–250 |
Graph automorphism. Encyclopedia of Mathematics. URL: http://encyclopediaofmath.org/index.php?title=Graph_automorphism&oldid=33230