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Related papers: Profinite groups with pronilpotent centralizers

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The article deals with profinite groups in which the centralizers are abelian (CA-groups), that is, with profinite commutativity-transitive groups. It is shown that such groups are virtually pronilpotent. More precisely, let G be a…

Group Theory · Mathematics 2018-07-09 Pavel Shumyatsky , Pavel Zalesskii , Theo Zapata

A group $G$ is said to have restricted centralizers if for every $x\in G$ the centralizer $C_G(x)$ either is finite or has finite index in $G$. Shalev showed that a profinite group with restricted centralizers is virtually abelian. Here we…

Group Theory · Mathematics 2026-04-24 Cristina Acciarri , Pavel Shumyatsky

A group $G$ is said to have restricted centralizers if for each $g$ in $G$ the centralizer $C_G(g)$ either is finite or has finite index in $G$. Shalev showed that a profinite group with restricted centralizers is virtually abelian. Given a…

Group Theory · Mathematics 2021-12-30 Cristina Acciarri , Pavel Shumyatsky

The structure of finite and locally finite groups in which every element has prime power order (CP-groups) is well known. In this paper we note that the combination of our earlier results with the available information on the structure of…

Group Theory · Mathematics 2020-01-07 Pavel Shumyatsky

The article deals with profinite groups in which centralizers are virtually procyclic. Suppose that G is a profinite group such that the centralizer of every nontrivial element is virtually torsion-free while the centralizer of every…

Group Theory · Mathematics 2019-10-14 Pavel Shumyatsky , Pavel Zalesskii

Given a profinite group $G$ and a family $\mathcal{F}$ of finite groups closed under taking subgroups, direct products and quotients, denote by $\mathcal{F}(G)$ the set of elements $g \in G$ such that $\{x \in G\ |\ \langle g,x \rangle \…

Group Theory · Mathematics 2025-05-23 Martino Garonzi , Andrea Lucchini , Nowras Otmen

For a positive integer r we prove that if G is a profinite group in which the centralizer of every nontrivial element has rank at most r, then G is either a pro-p group or a group of finite rank. Further, if G is not virtually a pro-p…

Group Theory · Mathematics 2022-07-19 Pavel Shumyatsky

A group $G$ is said to have restricted centralizers if for each $g \in G$ the centralizer $C_G(g)$ either is finite or has finite index in $G$. Shalev showed that a profinite group with restricted centralizers is virtually abelian. We take…

Group Theory · Mathematics 2022-12-20 Eloisa Detomi , Marta Morigi , Pavel Shumyatsky

Just infinite groups play a significant role in profinite group theory. For each $c \geq 0$, we consider more generally JNN$_c$F profinite (or, in places, discrete) groups that are Fitting-free; these are the groups $G$ such that every…

Group Theory · Mathematics 2023-09-06 Benjamin Klopsch , Martyn Quick

A group $G$ is said to be a $C$-group if every subgroup $H$ has a permutable complement, i.e. if there exists a subgroup $K$ of $G$ such that $G=HK$ and $H \cap K=1$. In this paper, we study the profinite counterpart of this concept. We say…

Group Theory · Mathematics 2025-07-29 Gustavo A. Fernández-Alcober , Giulia Sabatino

Let $\mathfrak C$ be a class of finite groups which is closed for subgroups, quotients and direct products. Given a profinite group $G$ and an element $x\in G$, we denote by $P_{\mathfrak{C}}(x,G)$ the probability that $x$ and a randomly…

Group Theory · Mathematics 2023-04-12 Eloisa Detomi , Andrea Lucchini , Marta Morigi , Pavel Shumyatsky

We show that a profinite group, in which the centralisers of non-trivial elements are metabelian, is either virtually pro-$p$ or virtually soluble of derived length at most 4. We furthermore show that a prosoluble group, in which the…

Group Theory · Mathematics 2024-06-03 Pavel Shumyatsky , Anitha Thillaisundaram

Let G be a profinite group in which all pronilpotent subgroups generated by commutators are periodic. We prove that G' is locally finite.

Group Theory · Mathematics 2013-05-24 Eloisa Detomi , Marta Morigi , Pavel Shumyatsky

A group G has restricted centralizers if for each g in G the centralizer C_G(g) either is finite or has finite index in G. A theorem of Shalev states that a profinite group with restricted centralizers is abelian-by-finite. In the present…

Group Theory · Mathematics 2019-01-16 E. Detomi , M. Morigi , P. Shumyatsky

We introduce and investigate a class of profinite groups defined via extensions of centralizers analogous to the extensively studied class of finitely generated fully residually free groups, that is, limit groups (in the sense of Z. Sela).…

Group Theory · Mathematics 2017-11-07 Pavel Zalesskii , Theo Zapata

Let $g$ be an element of a group $G$. For a positive integer $n$, let $E_n(g)$ be the subgroup generated by all commutators $[...[[x,g],g],\dots ,g]$ over $x\in G$, where $g$ is repeated $n$ times. We prove that if $G$ is a profinite group…

Group Theory · Mathematics 2016-06-02 E. I. Khukhro , P. Shumyatsky

The generalised Fitting subgroup of a finite group is the group generated by all subnormal subgroups that are either nilpotent or quasisimple. The importance of this subgroup in finite group theory stems from the fact that it always…

Group Theory · Mathematics 2009-04-03 Colin Reid

We consider profinite groups in which all commutators are contained in a union of finitely many procyclic subgroups. It is shown that if G is a profinite group in which all commutators are covered by m procyclic subgroups, then G possesses…

Group Theory · Mathematics 2014-05-22 Gustavo A. Fernández-Alcober , Marta Morigi , Pavel Shumyatsky

Examples are given of profinite groups that are not strongly complete, and have other `bad' properties, yet have only finitely many open subgroups of each finite index. It is shown that a profinite group with the latter property must be…

Group Theory · Mathematics 2021-03-31 Dan Segal

Let $FH$ be a supersolvable Frobenius group with kernel $F$ and complement $H$. Suppose that a finite group $G$ admits $FH$ as a group of automorphisms in such a manner that $C_G(F)=1$ and $C_{G}(H)$ is nilpotent of class $c$. We show that…

Group Theory · Mathematics 2018-05-16 Jhone Caldeira , Emerson de Melo
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