2,101 research outputs found
Two local conditions on the vertex stabiliser of arc-transitive graphs and their effect on the Sylow subgroups
In this paper we study -arc-transitive graphs where the
permutation group induced by the stabiliser of the
vertex on the neighbourhood satisfies the two conditions given
in the introduction. We show that for such a -arc-transitive graph ,
if is an arc of , then the subgroup of
fixing pointwise and is a -group for some prime .
Next we prove that every -locally primitive (respectively quasiprimitive,
semiprimitive) graph satisfies our two local hypotheses. Thus this provides a
new Thompson-Wielandt-like theorem for a very large class of arc-transitive
graphs.
Furthermore, we give various families of -arc-transitive graphs where our
two local conditions do not apply and where has arbitrarily
large composition factors
Groups having complete bipartite divisor graphs for their conjugacy class sizes
Given a finite group G, the bipartite divisor graph for its conjugacy class
sizes is the bipartite graph with bipartition consisting of the set of
conjugacy class sizes of G-Z (where Z denotes the centre of G) and the set of
prime numbers that divide these conjugacy class sizes, and with {p,n} being an
edge if gcd(p,n)\neq 1.
In this paper we construct infinitely many groups whose bipartite divisor
graph for their conjugacy class sizes is the complete bipartite graph K_{2,5},
giving a solution to a question of Taeri.Comment: 5 page
Maximal subgroups of finite groups avoiding the elements of a generating set
We give an elementary proof of the following remark: if G is a finite group and { g1, \u2026 , gd} is a generating set of G of smallest cardinality, then there exists a maximal subgroup M of G such that M 29 { g1, \u2026 , gd} = 05. This result leads us to investigate the freedom that one has in the choice of the maximal subgroup M of G. We obtain information in this direction in the case when G is soluble, describing for example the structure of G when there is a unique choice for M. When G is a primitive permutation group one can ask whether is it possible to choose in the role of M a point-stabilizer. We give a positive answer when G is a 3-generated primitive permutation group but we leave open the following question: does there exist a (soluble) primitive permutation group G= \u27e8 g1, \u2026 , gd\u27e9 with d(G) = dCloseSPigtSPi 3 and with c2 1 64 i 64 dsupp (gi) = 05? We obtain a weaker result in this direction: if G= \u27e8 g1, \u2026 , gd\u27e9 with d(G) = d, then supp (gi) 29 supp (gj) 60 05 for all i, j 08 { 1 , \u2026 , d}
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