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An element of a group is called reversible if it is conjugate to its own inverse. Reversible elements are closely related to strongly reversible elements, which can be expressed as a product of two involutions. In this paper, we classify…

Group Theory · Mathematics 2025-04-30 Krishnendu Gongopadhyay , Tejbir Lohan , Chandan Maity

We introduce and study conjugate reversibility (or $c$-reversibility) in the complex special linear group $\SL(n,\C)$ where an element is conjugate to the inverse of its complex conjugate. We prove that in $\SL(n, \C)$, every $c$-reversible…

Group Theory · Mathematics 2025-06-19 Krishnendu Gongopadhyay , Rahul Mondal

An element of a group is called \emph{reversible} if it is conjugate to its inverse, and \emph{strongly reversible} if it can be expressed as a product of two involutions. We study strongly reversible elements in the Riordan group and in…

Group Theory · Mathematics 2026-01-19 Roksana Słowik , Tejbir Lohan

An element $g$ in a group $G$ is called reversible (or real) if it is conjugate to $g^{-1}$ in $G$, i.e., there exists $h$ in $G$ such that $g^{-1}=hgh^{-1}$. The element $g$ is called strongly reversible if the conjugating element $h$ is…

Group Theory · Mathematics 2022-04-08 Krishnendu Gongopadhyay , Tejbir Lohan

An element $g$ in a group $G$ is called reversible if $g$ is conjugate to $g^{-1}$ in $ G $. An element $g$ in $G$ is strongly reversible if $ g $ is conjugate to $g^{-1}$ by an involution in $G$. The group of affine transformations of…

Group Theory · Mathematics 2023-10-10 Krishnendu Gongopadhyay , Tejbir Lohan , Chandan Maity

An element $g$ of a group is called {\em reversible} if it is conjugate in the group to its inverse. This paper is about reversibles in the group $G$ of formally-invertible pairs of formal power series in two variables, with complex…

Complex Variables · Mathematics 2022-03-22 Anthony G. O'Farrell , Dmitri Zaitsev

An element of a group is \emph{reversible} if it is conjugate to its own inverse, and it is \emph{strongly reversible} if it is conjugate to its inverse by an involution. A group element is strongly reversible if and only if it can be…

Group Theory · Mathematics 2009-09-29 Nick Gill , Ian Short

An element $g$ of a group is called reversible if it is conjugate in the group to its inverse. An element is an involution if it is equal to its inverse. This paper is about factoring elements as products of reversibles in the group…

Group Theory · Mathematics 2014-02-11 Dmitri Zaitsev , Anthony G. O'Farrell

Let $G$ be a group. An element $g$ in $G$ is called reversible if it is conjugate to $g^{-1}$ within $G$, and called strongly reversible if it is conjugate to its inverse by an order two element of $G$. Let $\textbf{H}_{\mathbb H}^n$ be the…

Geometric Topology · Mathematics 2019-11-15 Sushil Bhunia , Krishnendu Gongopadhyay

An element of a group is said to be reversible if it is conjugate to its inverse. We characterise the reversible elements in the group of diffeomorphisms of the real line, and in the subgroup of order preserving diffeomorphisms.

Dynamical Systems · Mathematics 2014-02-11 Anthony G. O'Farrell , Ian Short

An element $f$ of a group $G$ is reversible if it is conjugated in $G$ to its own inverse; when the conjugating map is an involution, $f$ is called strongly reversible. We describe reversible maps in certain groups of interval exchange…

Dynamical Systems · Mathematics 2019-07-04 Nancy Guelman , Isabelle Liousse

We classify the real and strongly real conjugacy classes in $GL_n(q)$, $SL_n(q)$, $PGL_n(q)$, $PSL_n(q)$, and all quasi-simple covers of $PSL_n(q)$. In each case we give a formula for the number of real, and the number of strongly real,…

Group Theory · Mathematics 2009-11-03 Nick Gill , Anupam Singh

Let $G$ be an algebraic group defined over a field $k$. We call $g\in G$ {\bf real} if $g$ is conjugate to $g^{-1}$ and $g\in G(k)$ as {\bf $k$-real} if $g$ is real in $G(k)$. An element $g\in G$ is {\bf strongly real} if $\exists h\in G$,…

Group Theory · Mathematics 2008-07-02 Anupam Singh , Maneesh Thakur

Let $\F$ be a field with a non-trivial involution $c: \alpha \to \alpha^c$. An element $g \in {\rm GL}_n(\F)$ is called $c$-real if it is conjugate to $(g^c)^{-1}$. We prove that for $n \geq 2$, $g \in {\rm GL}_n(\F)$ is $c$-real if and…

Rings and Algebras · Mathematics 2018-01-19 Krishnendu Gongopadhyay , Sudip Mazumder , Sujit Kumar Sardar

Let G be a finite group. An element x in G is a real element if x is conjugate to its inverse in G. For x in G, the conjugacy class x^G is said to be a real conjugacy class if every element of x^G is real. We show that if 4 divides no real…

Group Theory · Mathematics 2013-06-28 Hung P. Tong-Viet

We classify all strongly real conjugacy classes of the finite unitary group $\U(n, F_q)$ when $q$ is odd. In particular, we show that $g \in \U(n, F_q)$ is strongly real if and only if $g$ is an element of some embedded orthogonal group…

Group Theory · Mathematics 2014-09-02 Zachary Gates , Anupam Singh , C. Ryan Vinroot

An element $g$ of a group is called {\em reversible} if it is conjugate in the group to its inverse. In this paper we review some results about the structure of groups involving the reversible elements and we pose some questions about…

Group Theory · Mathematics 2014-02-11 Anthony G. O'Farrell

In a group $G$, elements $a$ and $b$ are conjugate if there exists $g\in G$ such that $g^{-1} ag=b$. This conjugacy relation, which plays an important role in group theory, can be extended in a natural way to inverse semigroups: for…

Group Theory · Mathematics 2021-01-19 Joao Araujo , Michael Kinyon , Janusz Konieczny

An element of a group is called \emph{reversible} if it is conjugate to its inverse. While reversibility in the quaternionic M\"{o}bius group $\mathrm{PSL}(2,\mathbb{H})$ has traditionally been studied using geometric and dynamical methods,…

Geometric Topology · Mathematics 2026-04-01 Krishnendu Gongopadhyay , Tejbir Lohan , Abhishek Mukherjee

A relational structure $\mathbb{X}$ is called reversible iff each bijective homomorphism from $\mathbb{X}$ onto $\mathbb{X}$ is an isomorphism, and linear orders are prototypical examples of such structures. One way to detect new reversible…

Logic · Mathematics 2018-03-28 Miloš S. Kurilić , Nenad Morača
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