Prime power coverings of groups

Abstract

For a finite group A with normal subgroup G, a subgroup U of G is an A-prime-power-covering subgroup if U meets every A-conjugacy-class of elements of G of prime power order. It is conjectured that |G:U| is bounded by some function of |A:G|, and this conjecture has number theoretic implications for relative Brauer groups of algebraic number fields. We prove the conjecture in the case that the action of G on the set of right cosets of U in G is innately transitive. This includes the case where U is a maximal subgroup of G. The proof uses a new bound on the order of a nonabelian finite simple group in terms of its number of classes of elements of prime power order, which in turn depends on the Classification of the Finite Simple Groups.

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