Qinhai Zhang, Libo Zhao, Miaomiao Li, Yiqun Shen
Published 2014-10-23Version 1
Suppose that $G$ is a finite $p$-group. If all subgroups of index $p^t$ of $G$ are abelian and at least one subgroup of index $p^{t-1}$ of $G$ is not abelian, then $G$ is called an $\mathcal{A}_t$-group. In this paper, some information about $\mathcal{A}_t$-groups are obtained and $\mathcal{A}_3$-groups are completely classified. This solves an {\it old problem} proposed by Berkovich and Janko in their book. Abundant information about $\mathcal{A}_3$-groups are given.
The order of the product of two elements in finite nilpotent groups
Free $\mathbb Q$-groups are residually torsion-free nilpotent
The order of the product of two elements in periodic groups
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