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Palindromes are those reduced words of free products of groups that coincide with their reverse words. We prove that a free product of groups $G$ has infinite palindromic width, provided that $G$ is not the free product of two cyclic groups…

Group Theory · Mathematics 2007-05-23 Valery Bardakov , Vladimir Tolstykh

A group has finite palindromic width if there exists $n$ such that every element can be expressed as a product of $n$ or fewer palindromic words. We show that if $G$ has finite palindromic width with respect to some generating set, then so…

Group Theory · Mathematics 2014-09-16 T. R. Riley , A. W. Sale

A palindrome in a free group F_n is a word on some fixed free basis of F_n that reads the same backwards as forwards. The palindromic automorphism group \Pi A_n of the free group F_n consists of automorphisms that take each member of some…

Geometric Topology · Mathematics 2016-01-27 Neil J. Fullarton

Let $F= < a,b>$ be a rank two free group. A word $W(a,b)$ in $F$ is {\sl primitive} if it, along with another group element, generates the group. It is a {\sl palindrome} (with respect to $a$ and $b$) if it reads the same forwards and…

Group Theory · Mathematics 2011-02-15 Jane Gilman , Linda Keen

We answer a question of Bardakov (Kourovka Notebook, Problem 19.8) which asks for the existence of a pair of natural numbers $(c, m)$ with the property that every element in the free group on the two-element set $\{a, b\}$ can be…

Group Theory · Mathematics 2024-08-13 Manuel Staiger

In this paper we show that there exists an uncountable family of finitely generated simple groups with the same positive theory as any non-abelian free group. In particular, these simple groups have infinite $w$-verbal width for all…

We prove that the palindromic width of HNN extension of a group by proper associated subgroups is infinite. We also prove that the palindromic width of the amalgamated free product of two groups via a proper subgroup is infinite (except…

Group Theory · Mathematics 2019-08-26 Krishnendu Gongopadhyay , Swathi Krishna

The palindromic length of a finite word $w$ is defined as the minimal number of palindromes such that their product is $w$. Clearly, this function may take different values depending on if we consider $w$ as an element a free semigroup or…

Combinatorics · Mathematics 2025-12-12 Anna E. Frid

We consider non-elementary representations of two generator free groups in $PSL(2,\mathbb{C})$, not necessarily discrete or free, $G = < A, B >$. A word in $A$ and $B$, $W(A,B)$, is a palindrome if it reads the same forwards and backwards.…

Geometric Topology · Mathematics 2008-08-27 Jane Gilman , Linda Keen

We prove that the nilpotent product of a set of groups $A_{1},\dots, A_{s}$ has finite palindromic width if and only if the palindromic widths of $A_{i}, i=1,\dots, s,$ are finite. We give a new proof that the commutator width of $F_n \wr…

Group Theory · Mathematics 2018-01-23 Valeriy G. Bardakov , Oleg V. Bryukhanov , Krishnendu Gongopadhyay

We provide a general structural criterion implying that a group has infinite $m$-almost palindromic width. In particular, we prove that both HNN extensions and free products exhibit infinite $m$-almost palindromic width, with the unique…

Group Theory · Mathematics 2026-03-02 Krishnendu Gongopadhyay , Shrinit Singh

We show that the wreath product $G \wr \mathbb{Z}^n$ of any finitely generated group $G$ with $\mathbb{Z}^n$ has finite palindromic width. We also show that $C \wr A$ has finite palindromic width if $C$ has finite commutator width and $A$…

Group Theory · Mathematics 2014-02-19 Elisabeth Fink

Let G be a group and S a subset of G that generates G. For each x in G define the length l_S(x) of x relative to S to be the minimal k such that x is a product of k elements of S. The supremum of the values l_S(x), x \in G, is called the…

Group Theory · Mathematics 2007-05-23 Valery Bardakov , Vladimir Shpilrain , Vladimir Tolstykh

We investigate the palindromic width of finitely generated solvable groups. We prove that every finitely generated $3$-step solvable group has finite palindromic width. More generally, we show the finiteness of palindromic width for…

Group Theory · Mathematics 2015-10-29 Valeriy G. Bardakov , Krishnendu Gongopadhyay

We introduce two classes of morphisms over the alphabet $A=\{0,1\}$ whose fixed points contain infinitely many antipalindromic factors. An antipalindrome is a finite word invariant under the action of the antimorphism…

Combinatorics · Mathematics 2019-06-17 Petr Ambrož , Zuzana Masáková , Edita Pelantová

In this paper we consider the palindromic width of free nilpotent groups. In particular, we prove that the palindromic width of a finitely generated free nilpotent group is finite. We also prove that the palindromic width of a free…

Group Theory · Mathematics 2014-02-25 Valeriy G. Bardakov , Krishnendu Gongopadhyay

We consider two {seemingly} different definitions of infinite words which contain {the} utmost number of palindromes. We show that these two definitions coincide. {The keynote of the proof is a meticulous inspection of properties of…

Combinatorics · Mathematics 2008-02-26 L. Balková , E. Pelantová

Let $F_n$ be the free group of rank $n$ with free basis $X=\{x_1,\dots,x_n \}$. A palindrome is a word in $X^{\pm 1}$ that reads the same backwards as forwards. The palindromic automorphism group $\Pi A_n$ of $F_n$ consists of those…

Group Theory · Mathematics 2017-04-25 Valeriy G. Bardakov , Krishnendu Gongopadhyay , Mahender Singh

Recently George Bergman proved that the symmetric group of an infinite set possesses the following property which we call by the {\it universality of finite width}: given any generating set $X$ of the symmetric group of an infinite set…

Group Theory · Mathematics 2007-05-23 Vladimir Tolstykh

We study the set of finite words with zero palindromic defect, i.e., words rich in palindromes. This set is factorial, but not recurrent. We focus on description of pairs of rich words which cannot occur simultaneously as factors of a…

Combinatorics · Mathematics 2018-01-09 Edita Pelantová , Štěpán Starosta
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