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Related papers: Covering by Centralizers

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Every finite non-abelian group of order $n$ has a non-central element whose centralizer has order exceeding $n^{1/3}$. The proof does not rely on the classification of finite simple groups, yet it uses the Feit-Thompson theorem.

Group Theory · Mathematics 2020-07-23 Daniel Palacín

We classify finite groups in which the centralisers of certain non-central elements are soluble. This includes a full structural description of groups whose non-central element centralisers are all soluble, and a reduction theorem for the…

Group Theory · Mathematics 2025-11-19 Valentina Grazian , Carmine Monetta , Gareth Tracey

The set of all centralizers of elements in a finite group $G$ is denoted by $Cent(G)$ and $G$ is called $n-$centralizer if $|Cent(G)| = n$. In this paper, the structure of centralizers in a non-abelian finite group $G$ with this property…

Group Theory · Mathematics 2021-01-25 A. R. Ashrafi , M. A. Salahshour

We study groups having the property that every non-cyclic subgroup contains its centralizer. The structure of nilpotent and supersolvable groups in this class is described. We also classify finite $p$-groups and finite simple groups with…

Group Theory · Mathematics 2014-01-28 Costantino Delizia , Urban Jezernik , Primož Moravec , Chiara Nicotera

For a group $G$, a {\it normalizer covering} of $G$ is a finite set of proper normalizers of some subgroups of $G$ whose union is $G$. We study $p$-groups ($p$ a prime) without a normalizer covering. As an application, we determine some…

Group Theory · Mathematics 2024-07-17 M. Amiri , S. Haji , S. M. Jafarian Amiri

We characterize finite $p$-groups $G$ of order up to $p^7$ for which the group of central automorphisms fixing the center element-wise is of minimum possibe order.

Group Theory · Mathematics 2015-03-17 Deepak Gumber , Mahak Sharma

The role of finite centralizers of involutions in pseudo-finite groups is analyzed. It is shown that a pseudo-finite group admitting a definable involutory automorphism fixing only finitely many elements is finite-by-abelian-by-finite. As a…

Group Theory · Mathematics 2020-11-05 Nadja Hempel , Daniel Palacin

A finite group $G$ is called an F-group if for every $x, y \in G \setminus Z(G)$, $C(x) \leq C(y)$ implies that $C(x) = C(y)$. On the otherhand, two elements of a group are said to be $z$-equivalent or in the same $z$-class if their…

Group Theory · Mathematics 2021-12-14 Sekhar Jyoti Baishya

Let $\mathcal{F}$ be a set of finite groups. A finite group $G$ is called an \emph{$\mathcal{F}$-cover} if every group in $\mathcal{F}$ is isomorphic to a subgroup of $G$. An $\mathcal{F}$-cover is called \emph{minimal} if no proper…

Group Theory · Mathematics 2024-02-20 Peter J. Cameron , David Craven , Hamid Reza Dorbidi , Scott Harper , Benjamin Sambale

In this paper, we characterize finite group $G$ with unique proper non-abelian element centralizer. This improves \cite[Theorem 1.1]{nab}. Among other results, we have proved that if $C(a)$ is the proper non-abelian element centralizer of…

Group Theory · Mathematics 2020-10-23 Sekhar Jyoti Baishya

By a proper cover of a finite group G we mean an extension of a nontrivial finite group by G. Our purpose is to show that a proper cover of a finite simple group L of Lie type always contains an element whose order differs from the element…

Group Theory · Mathematics 2015-02-03 M. A. Grechkoseeva

A cover of a finite group $G$ is a family of proper subgroups of $G$ whose union is $G$, and a cover is called minimal if it is a cover of minimal cardinality. A partition of $G$ is a cover such that the intersection of any two of its…

Group Theory · Mathematics 2019-04-10 Martino Garonzi , Michell Lucena Dias

For a given m>=1, we consider the finite non-abelian groups G for which |C_G(g):<g>|<=m for every g in G\Z(G). We show that the order of G can be bounded in terms of m and the largest prime divisor of the order of G. Our approach relies on…

Group Theory · Mathematics 2015-04-02 Gustavo A. Fernandez-Alcober , Leire Legarreta , Antonio Tortora , Maria Tota

We consider formal maps in any finite dimension $d$ with coefficients in an integral domain $K$ with identity. Those invertible under formal composition form a group $\mathcal{G}$. We consider the centraliser $C_g$ of an element…

Group Theory · Mathematics 2022-07-05 Anthony G. O'Farrell

A group is called a CA-group if the centralizer of every non-central element is abelian. Furthermore, a group is called a minimal non-CA-group if it is not a CA-group itself, but all of its proper subgroups are. In this paper, we give a…

Group Theory · Mathematics 2019-12-18 L. Jafari , S. Kohl , M. Zarrin

A group $G$ is said to be $n$-centralizer if its number of element centralizers $\mid \Cent(G)\mid=n$, an F-group if every non-central element centralizer contains no other element centralizer and a CA-group if all non-central element…

Group Theory · Mathematics 2022-07-04 Sekhar Jyoti Baishya

Using methods of associative algebras, Lie theory, group cohomology, and modular representation theory, we construct profinite $p$-adic analytic groups such that the centralizer of each of their non-trivial elements is abelian. The paper…

Group Theory · Mathematics 2024-11-07 Luis Mendonça , Thomas S. Weigel , Theo Zapata

In general the endomorphisms of a non-abelian group do not form a ring under the operations of addition and composition of functions. Several papers have dealt with the ring of functions defined on a group which are endomorphisms when…

Rings and Algebras · Mathematics 2016-02-24 Gary Walls , Linhong Wang

In the paper we present a new, uniform and comprehensive description of centralizers of the maximal regular subgroups in compact simple Lie groups of all types and ranks. The centralizer is either a direct product of finite cyclic groups, a…

Mathematical Physics · Physics 2011-10-03 M. Larouche , F. W. Lemire , J. Patera

We study groups having the property that every non-abelian subgroup contains its centralizer. We describe various classes of infinite groups in this class, and address a problem of Berkovich regarding the classification of finite $p$-groups…

Group Theory · Mathematics 2016-06-07 Costantino Delizia , Heiko Dietrich , Primoz Moravec , Chiara Nicotera
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