Higman–Sims group


In the area of modern algebra known as group theory, the Higman–Sims group HS is a sporadic simple group of order
The Schur multiplier has order 2, the outer automorphism group has order 2, and the group 2.HS.2 appears as an involution centralizer in the Harada–Norton group.

History

HS is one of the 26 sporadic groups and was found by. They were attending a presentation by Marshall Hall on the Hall–Janko group J2. It happens that J2 acts as a permutation group on the Hall–Janko graph of 100 points, the stabilizer of one point being a subgroup with two other orbits of lengths 36 and 63. Inspired by this they decided to check for other rank 3 permutation groups on 100 points. They soon focused on a possible one containing the Mathieu group M22, which has permutation representations on 22 and 77 points. By putting together these two representations, they found HS, with a one-point stabilizer isomorphic to M22.
HS is the simple subgroup of index two in the group of automorphisms of the Higman–Sims graph. The Higman–Sims graph has 100 nodes, so the Higman–Sims group HS is a transitive group of permutations of a 100 element set.
independently discovered the group as a doubly transitive permutation group acting on a certain 'geometry' on 176 points.

Relationship to Conway groups

identified the Higman–Sims group as a subgroup of the Conway group Co0. In Co0 HS arises as a pointwise stabilizer of a 2-3-3 triangle, one whose edges are type 2 and 3 vectors. HS thus is a subgroup of each of the Conway groups Co0, Co2 and Co3.
shows that the group HS is well-defined. In the Leech lattice, suppose a type 3 point v is fixed by an instance of Co3. Count the type 2 points w such that the inner product v·w = 2. He shows that their number is and that this Co3 is transitive on these w.
In fact, and there are instances of HS including a permutation matrix representation of the Mathieu group M22.
If an instance of HS in Co0 fixes a particular point of type 3, this point is found in 276 triangles of type 2-2-3 that this copy of HS permutes in orbits of 176 and 100. This fact leads to Graham Higman's construction as well as to the Higman–Sims graph. HS is doubly transitive on the 176 and rank 3 on the 100.
A 2-3-3 triangle defines a 2-dimensional subspace fixed pointwise by HS. The standard representation of HS can thus be reduced to a 22-dimensional one.

A Higman-Sims graph

gives an example of a Higman-Sims graph within the Leech lattice, permuted by the representation of M22 on the last 22 coordinates:
Differences of adjacent points are of type 3; those of non-adjacent ones are of type 2.
Here, HS fixes a 2-3-3 triangle with vertices,, and z the origin. x and y are of type 3 while is of type 2. Any vertex of the graph differs from x, y, and z by vectors of type 2.

Two classes of involutions

An involution in the subgroup M22 transposes 8 pairs of co-ordinates. As a permutation matrix in Co0 it has trace 8. It can shown that it moves 80 of the 100 vertices of the Higman-Sims graph. No transposed pair of vertices is an edge in the graph.
There is another class of involutions, of trace 0, that move all 100 vertices. As permutations in the alternating group A100, being products of an odd number of double transpositions, these involutions lift to elements of order 4 in the double cover 2.A100. HS thus has a double cover 2.HS.

Maximal subgroups

found the 12 conjugacy classes of maximal subgroups of HS as follows:
SubgroupOrderIndexOrbits on Higman-Sims graph
M224435201001, 22, 77one-point stabilizer on Higman-Sims graph
U3:2252000176imprimitive on pair of Hoffman-Singleton graphs of 50 vertices eachone-point stabilizer in doubly transitive representation of degree 176
U3:2252000176like type abovefused in HS:2 to class above
PSL.24032011002, 42, 56stabilizer of edge
S840320110030, 70-
24.S61152038502, 6, 32, 60stabilizer of non-edge
43:PSL1075241258, 28, 64-
M117920560012, 22, 66classes fused in HS:2
M117920560012, 22, 66classes fused in HS:2
4.24.S57680577520, 80centralizer of involution class 2A moving 80 vertices of Higman–Sims graph
2 × A6.2228801540040, 60centralizer of involution class 2B moving all 100 vertices
5:4 × A5120036960imprimitive on 5 blocks of 20normalizer of 5-subgroup generated by class 5B element

Conjugacy classes

Traces of matrices in a standard 24-dimensional representation of HS are shown. Listed are 2 permutation representations: on the 100 vertices of the Higman–Sims graph, and on the 176 points of Graham Higman's geometry.
ClassOrder of centralizerNo. elementsTraceOn 100On 176
1A44,352,0001 = 124-
2A7,6805775 = 3 · 52 · 7 · 118120,240116,280-
2B2,88015400 = 23 · 52 · 5 · 7 · 110250112, 282-
3A360123200 = 26 · 52 · 7 · 116110,33015,357-
4A3,84011550 = 2 · 3 · 52 · 7 · 11-4210420116,440-
4B256173250 = 2 · 32 · 53 · 7 · 11418,26,42028,440-
4C64693000 = 23 · 32 · 53 · 7 · 11414,28,42014,26,440-
5A50088704 = 27 · 32 · 7 · 11-15201,535-
5B300147840 = 27 · 3 · 5 · 7 · 11452016,534-
5C251774080 = 29 · 32 · 5 · 7415,5191,535-
6A361232000 = 27 · 53 · 7 · 11025,61513,2,33,627-
6B241848000 = 26 · 3 · 53 · 7 · 11212,24,36,6121, 22,35,626-
7A76336000 = 29 · 32 · 53 · 11312,7141,725-
8A162772000 = 25 · 32 · 53 · 7 · 11212,23,43,81044, 820-
8B162772000 = 25 · 32 · 53 · 7 · 11222,44,81012,2,43,820-
8C162772000 = 25 · 32 · 53 · 7 · 11222,44,81012 2, 43, 820-
10A202217600 = 27 · 32 · 52 · 7 · 11354,1081,53,1016-
10B202217600 = 27 · 32 · 52 · 7 · 110101012,22,52,1016-
11A114032000 = 29 · 32 · 53 · 72111191116Power equivalent
11B114032000 = 29 · 32 · 53 · 72111191116Power equivalent
12A123696000 = 27 · 3 · 53 · 7 · 11221,42,63,126 1,35,4,1213-
15A152956800 = 29 · 3 · 52 · 7 · 11152,15632,5,1511-
20A202217600 = 27 · 32 · 52 · 7 · 111102,2041,53,208Power equivalent
20B202217600 = 27 · 32 · 52 · 7 · 111102,2041,53,208Power equivalent

Generalized Monstrous Moonshine

Conway and Norton suggested in their 1979 paper that monstrous moonshine is not limited to the monster group, but that similar phenomena may be found for other groups. Larissa Queen and others subsequently found that one can construct the expansions of many Hauptmoduln from simple combinations of dimensions of sporadic groups. For HS, the McKay-Thompson series is where one can set ,