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Transitive Groups Naming Scheme
Description
This page briefly describes some of the notations introduced in the paper "On Transitive Permutation Groups" by J.H. Conway, A. Hulpke, and J. McKay, LMS J. Comput. Math. 1 (1998), 1-8. These notations are reminiscent of the notations used in "The Atlas of Finite Groups" by J.H. Conway, R.T. Curtis, S.P. Norton, R.A. Parker, and R.A. Wilson.
These notations are used by the galois function.
Capital letters denote families of groups:
A : Alternating
F : Frobenius
E : Elementary
S : Symmetric
AL : Affine linear
C : Cyclic
M : Mathieu
D : Dihedral
Q_8 : Quaternionic group
Except for dihedral and Frobenius group, a name of the form , where is a family name, denotes the -th member of this family acting as a permutation group on points. For instance, is the symmetric group on 3 elements. Moreover, denotes the same abstract group, but not necessarily with the same action. For instance, is the alternating group on 4 elements acting transitively on a set of 6 elements. For dihedral and Frobenius groups, or denotes the group of order . For instance, and is the dihedral group with six elements acting transitively on a set of 6 elements.
An integer n stands for a cyclic group with n elements.
Let and be groups. Then
or indicates a group with a normal subgroup of structure , for which the corresponding quotient has structure .
specifies that the group is a split extension.
denotes a direct product where the action is the natural action on the Cartesian product of the sets.
denotes a subdirect product corresponding to two epimorphisms : and : where is a group of order . In other words, the group consists of elements in the direct product such that .
is the direct product of groups of structure .
denotes a wreath product.
is an imprimitive group derived from a semi-direct product. The group is the intersection of the block stabilizers. See the paper by Conway, Hulpke, and McKay for more information. In particular (where has degree ) is the permutational wreath product .
denotes a subgroup of . There exists two epimorphisms : and : (where the order of is , such that the group consists of elements in satisfying .
Lower case letters are used to distinguish different groups arising from the same general construction. See the paper by Conway, Hulpke, and McKay for more information.
See Also
combinat, group, group[transgroup], http://web.mat.bham.ac.uk/atlas/v2.0/
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