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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

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

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

By a coprime commutator in a profinite group $G$ we mean any element of the form $[x, y]$, where $x,y\in G$ and $(|x|,|y|)=1$. It is well-known that the subgroup generated by the coprime commutators of $G$ is precisely the pronilpotent…

Group Theory · Mathematics 2026-04-08 Cristina Acciarri , Pavel Shumyatsky

A coprime commutator in a profinite group $G$ is an element of the form $[x,y]$, where $x$ and $y$ have coprime order and an anti-coprime commutator is a commutator $[x,y]$ such that the orders of $x$ and $y$ are divisible by the same…

Group Theory · Mathematics 2021-03-09 Eloisa Detomi , Marta Morigi , Pavel Shumyatsky

For a family of group words $w$ we show that if $G$ is a profinite group in which all $w$-values are contained in a union of finitely many subgroups with a prescribed property, then $w(G)$ has the same property as well. In particular, we…

Group Theory · Mathematics 2011-12-30 Cristina Acciarri , Pavel Shumyatsky

Let $G$ be a profinite group. The coprime commutators $\gamma_j^*$ and $\delta_j^*$ are defined as follows. Every element of $G$ is both a $\gamma_1^*$-value and a $\delta_0^*$-value. For $j\geq 2$, let $X$ be the set of all elements of $G$…

Group Theory · Mathematics 2023-07-28 Iker de las Heras , Matteo Pintonello , Pavel Shumyatsky

Let G be a profinite group. The following results are proved. The commutator subgroup G' is finite if and only if G is covered by countably many abelian subgroups. The group G is finite-by-nilpotent if and only if G is covered by countably…

Group Theory · Mathematics 2015-01-13 Pavel Shumyatsky

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 article deals with profinite groups in which the centralizers are pronilpotent (CN-groups). It is shown that such groups are virtually pronilpotent. More precisely, let G be a profinite CN-group, and let F be the maximal normal…

Group Theory · Mathematics 2018-09-13 Pavel Shumyatsky

Let $G$ be a finite group. A coprime commutator in $G$ is any element that can be written as a commutator $[x,y]$ for suitable $x,y\in G$ such that $\pi(x)\cap\pi(y)=\emptyset$. Here $\pi(g)$ denotes the set of prime divisors of the order…

Group Theory · Mathematics 2022-05-05 Eloisa Detomi , Marta Morigi , Pavel Shumyatsky

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

Let $G$ be a profinite group. We prove that the commutator subgroup $G'$ is finite-by-procyclic if and only if the set of all commutators of $G$ is contained in a union of countably many procyclic subgroups.

Group Theory · Mathematics 2016-11-08 Cristina Acciarri , Pavel Shumyatsky

Let w be a group word. It is conjectured that if w has only countably many values in a profinite group G, then the verbal subgroup w(G) is finite. In the present paper we confirm the conjecture in the cases where w is a multilinear…

Group Theory · Mathematics 2016-10-20 Eloisa Detomi , Marta Morigi , Pavel Shumyatsky

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 word $w$ is said to be strongly concise in a class $\mathcal{C}$ of profinite groups if, for every group $G$ in $\mathcal{C}$ such that $w$ takes less than $2^{\aleph_0}$ values in $G$, the verbal subgroup $w(G)$ is finite. Detomi,…

Group Theory · Mathematics 2020-05-27 Eloisa Detomi , Benjamin Klopsch , Pavel Shumyatsky

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

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

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
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