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Related papers: Morphisms generating antipalindromic words

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We study morphisms from certain classes and their action on episturmian words. The first class is $P_{ret}$. In general, a morphism of class $P_{ret}$ can map an infinite word having zero palindromic defect to a word having infinite…

Combinatorics · Mathematics 2015-10-09 Štěpán Starosta

Fixed points ${\bf u}=\varphi({\bf u})$ of marked and primitive morphisms $\varphi$ over arbitrary alphabet are considered. We show that if ${\bf u}$ is palindromic, i.e., its language contains infinitely many palindromes, then some power…

Combinatorics · Mathematics 2015-09-14 Sébastien Labbé , Edita Pelantová

It is known that each word of length $n$ contains at most $n+1$ distinct palindromes. A finite rich word is a word with maximal number of palindromic factors. The definition of palindromic richness can be naturally extended to infinite…

Formal Languages and Automata Theory · Computer Science 2023-06-22 Francesco Dolce , Edita Pelantová

We investigate the least number of palindromic factors in an infinite word. We first consider general alphabets, and give answers to this problem for periodic and non-periodic words, closed or not under reversal of factors. We then…

Discrete Mathematics · Computer Science 2014-07-15 Gabriele Fici , Luca Q. Zamboni

The Fibonacci word $W$ on an infinite alphabet was introduced in [Zhang et al., Electronic J. Combinatorics 2017 24(2), 2-52] as a fixed point of the morphism $2i\rightarrow (2i)(2i+1)$, $(2i+1) \rightarrow (2i+2)$, $i\geq 0$. Here, for any…

Combinatorics · Mathematics 2019-12-02 Narges Ghareghani , Pouyeh Sharifani , Morteza Mohammad-Noori

In this paper, we study combinatorial and structural properties of a new class of finite and infinite words that are 'rich' in palindromes in the utmost sense. A characteristic property of so-called "rich words" is that all complete returns…

Combinatorics · Mathematics 2010-03-16 Amy Glen , Jacques Justin , Steve Widmer , Luca Q. Zamboni

For a given finite group $G$ consisting of morphisms and antimorphisms of a free monoid $\mathcal{A}^*$, we study infinite words with language closed under the group $G$. We focus on the notion of $G$-richness which describes words rich in…

Combinatorics · Mathematics 2015-03-19 Edita Pelantová , Štěpán Starosta

We show that there exists an uniformly recurrent infinite word whose set of factors is closed under reversal and which has only finitely many palindromic factors.

Discrete Mathematics · Computer Science 2009-03-16 Jean Berstel , Luc Boasson , Olivier Carton , Isabelle Fagnot

In this paper, we provide a new characterization of uniformly recurrent words with finite defect based on a relation between the palindromic and factor complexity. Furthermore, we introduce a class of morphisms P_ret closed under…

Combinatorics · Mathematics 2013-02-05 Lubomíra Balková , Edita Pelantová , Štěpán Starosta

We study infinite binary words that contain few distinct palindromes. In particular, we classify such words according to their critical exponents. This extends results by Fici and Zamboni [TCS 2013]. Interestingly, the words with 18 and 20…

Combinatorics · Mathematics 2024-03-27 L'ubomíra Dvořáková , Pascal Ochem , Daniela Opočenská

Recently the Fibonacci word $W$ on an infinite alphabet was introduced by [Zhang et al., Electronic J. Combinatorics 24-2 (2017) #P2.52] as a fixed point of the morphism $\phi: (2i) \mapsto (2i)(2i+ 1),\ (2i+ 1) \mapsto (2i+ 2)$ over all $i…

Combinatorics · Mathematics 2018-05-29 Amy Glen , Jamie Simpson , W. F. Smyth

We study infinite words fixed by a morphism and their derived words. A derived word is a coding of return words to a factor. We exhibit two examples of sets of morphisms which are closed under derivation --- any derived word with respect to…

Combinatorics · Mathematics 2019-11-28 Václav Košík , Štěpán Starosta

We study the palindromic length of factors of infinite words fixed by morphisms of the so-called class $\mathcal{P}$ introduced by Hof, Knill and Simon. We show that it grows at most logarithmically with the length of the factor. For the…

Combinatorics · Mathematics 2018-12-05 Petr Ambrož , Ondřej Kadlec , Zuzana Masáková , Edita Pelantová

Motivated by a conjecture of Frid, Puzynina, and Zamboni, we investigate infinite words with the property that for infinitely many n, every length-n factor is a product of two palindromes. We show that every Sturmian word has this property,…

Combinatorics · Mathematics 2015-09-18 Adam Borchert , Narad Rampersad

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

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

An infinite word is an infinite Lyndon word if it is smaller, with respect to the lexicographic order, than all its proper suffixes, or equivalently if it has infinitely many finite Lyndon words as prefixes. A characterization of binary…

Discrete Mathematics · Computer Science 2021-05-05 Gwenaël Richomme , Patrice Séébold

A two-dimensional ($2$D) word is a $2$D palindrome if it is equal to its reverse and it is an HV-palindrome if all its columns and rows are $1$D palindromes. We study some combinatorial and structural properties of HV-palindromes and its…

Discrete Mathematics · Computer Science 2019-09-18 Kalpana Mahalingam , Palak Pandoh

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

We regard a finite word $u=u_1u_2\cdots u_n$ up to word isomorphism as an equivalence relation on $\{1,2,\ldots, n\}$ where $i$ is equivalent to $j$ if and only if $x_i=x_j.$ Some finite words (in particular all binary words) are generated…

Combinatorics · Mathematics 2014-04-04 Tero Harju , Mari Huova , L. Q. Zamboni
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