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Paper detail

Sharp upper bounds on the minimal number of elements required to generate a transitive permutation group

The purpose of this paper is to prove that if $G$ is a transitive permutation group of degree $n\geq 2$, then $G$ can be generated by $\lfloor cn/\sqrt{\log{n}}\rfloor$ elements, where $c:=\sqrt{3}/2$. Owing to the transitive group $D_8\circ D_8$ of degree $8$, this upper bound is best possible. Our new result improves a 2018 paper by the author, and makes use of the recent classification of transitive groups of degree $48$.

preprint2021arXivOpen access
Gareth Tracey
math.GR
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Gareth Tracey

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