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A word is "crucial" with respect to a given set of "prohibited words" (or simply "prohibitions") if it avoids the prohibitions but it cannot be extended to the right by any letter of its alphabet without creating a prohibition. A "minimal…

Combinatorics · Mathematics 2010-03-16 Amy Glen , Bjarni V. Halldórsson , Sergey Kitaev

This paper concerns the avoidability of abelian and additive powers in infinite rich words. In particular, we construct an infinite additive $5$-power-free rich word over $\{0,1\}$ and an infinite additive $4$-power-free rich word over…

Combinatorics · Mathematics 2025-02-18 Jonathan Andrade , Lucas Mol

We construct an infinite binary word with critical exponent 3 that avoids abelian 4-powers. Our method gives an algorithm to determine if certain types of morphic sequences avoid additive powers. We also show that there are…

Combinatorics · Mathematics 2021-11-16 James Currie , Lucas Mol , Narad Rampersad , Jeffrey Shallit

We study the avoidability of long $k$-abelian-squares and $k$-abelian-cubes on binary and ternary alphabets. For $k=1$, these are M\"akel\"a's questions. We show that one cannot avoid abelian-cubes of abelian period at least $2$ in infinite…

Discrete Mathematics · Computer Science 2015-07-10 Michaël Rao , Matthieu Rosenfeld

We introduce new avoidability problems for words by considering equivalence relations, k-abelian equivalences, which lie properly in between equality and commutative equality, i.e. abelian equality. For two k-abelian equivalent words the…

Combinatorics · Mathematics 2015-03-19 Mari Huova , Juhani Karhumäki

In combinatorics on words, a word w over an alphabet Sigma is said to avoid a pattern p over an alphabet Delta if there is no factor x of w and no non-erasing morphism h from Delta^* to Sigma^* such that h(p) = x. Bell and Goh have recently…

Combinatorics · Mathematics 2009-07-28 Narad Rampersad

A finite word $w$ is an abelian square if $w = xx^\prime$ with $x^\prime$ a permutation of $x$. In 1972, Entringer, Jackson, and Schatz proved that every binary word of length $k^2 + 6k$ contains an abelian square of length $\geq 2k$. We…

Combinatorics · Mathematics 2010-12-03 Elyot Grant

We construct an infinite word $w$ over the $5$-letter alphabet such that for every factor $f$ of $w$ of length at least two, there exists a cyclic permutation of $f$ that is not a factor of $w$. In other words, $w$ does not contain a…

Combinatorics · Mathematics 2018-11-21 Golnaz Badkobeh , Pascal Ochem

The notion of Abelian complexity of infinite words was recently used by the three last authors to investigate various Abelian properties of words. In particular, using van der Waerden's theorem, they proved that if a word avoids Abelian…

Combinatorics · Mathematics 2010-05-17 Julien Cassaigne , Gwénaël Richomme , Kalle Saari , Luca Q. Zamboni

We identify the structure of the lexicographically least word avoiding 5/4-powers on the alphabet of nonnegative integers. Specifically, we show that this word has the form $p \tau(\varphi(z) \varphi^2(z) \cdots)$ where $p, z$ are finite…

Combinatorics · Mathematics 2023-09-04 Eric Rowland , Manon Stipulanti

We say that a word $w$ on a totally ordered alphabet avoids the word $v$ if there are no subsequences in $w$ order-equivalent to $v$. In this paper we suggest a new approach to the enumeration of words on at most $k$ letters avoiding a…

Combinatorics · Mathematics 2007-05-23 Petter Brändén , Toufik Mansour

A pattern is encountered in a word if some infix of the word is the image of the pattern under some non-erasing morphism. A pattern $p$ is unavoidable if, over every finite alphabet, every sufficiently long word encounters $p$. A theorem by…

Discrete Mathematics · Computer Science 2019-02-15 Arnaud Carayol , Stefan Göller

An infinte word w avoids a pattern p with the involution t if there is no substitution for the variables in p and no involution t such that the resulting word is a factor of w. We investigate the avoidance of patterns with respect to the…

Formal Languages and Automata Theory · Computer Science 2011-08-19 Bastian Bischoff , Dirk Nowotka

In combinatorics on words, a word $w$ over an alphabet $\Sigma$ is said to avoid a pattern $p$ over an alphabet $\Delta$ if there is no factor $f$ of $w$ such that $f= (p)$ where $h: \Delta^*\to\Sigma^*$ is a non-erasing morphism. A pattern…

Discrete Mathematics · Computer Science 2013-01-10 Pascal Ochem , Alexandre Pinlou

In combinatorics on words, a word $w$ over an alphabet $\Sigma$ is said to avoid a pattern $p$ over an alphabet $\Delta$ of variables if there is no factor $f$ of $w$ such that $f=h(p)$ where $h:\Delta^*\to\Sigma^*$ is a non-erasing…

Discrete Mathematics · Computer Science 2016-10-14 Pascal Ochem , Matthieu Rosenfeld

We study the lexicographically least infinite $a/b$-power-free word on the alphabet of non-negative integers. Frequently this word is a fixed point of a uniform morphism, or closely related to one. For example, the lexicographically least…

Combinatorics · Mathematics 2023-09-04 Lara Pudwell , Eric Rowland

In 2007, Grytczuk conjecture that for any sequence $(\ell_i)_{i\ge1}$ of alphabets of size $3$ there exists a square-free infinite word $w$ such that for all $i$, the $i$-th letter of $w$ belongs to $\ell_i$. The result of Thue of 1906…

Combinatorics · Mathematics 2021-05-12 Matthieu Rosenfeld

It is known that there are infinite words over finite alphabets with Abelian repetition threshold arbitrarily close to 1; however, the construction previously used involves huge alphabets. In this note we give a short cyclic morphism…

Combinatorics · Mathematics 2023-12-29 James D. Currie , Narad Rampersad

We consider the following novel variation on a classical avoidance problem from combinatorics on words: instead of avoiding repetitions in all factors of a word, we avoid repetitions in all factors where each individual factor is considered…

Formal Languages and Automata Theory · Computer Science 2013-03-19 Hamoon Mousavi , Jeffrey Shallit

We find finite-state recurrences to enumerate the words on the alphabet $[n]^r$ which avoid the patterns 123 and $1k(k-1)\dots2$, and, separately, the words which avoid the patterns 1234 and $1k(k-1)\dots2$.

Combinatorics · Mathematics 2019-01-29 Yonah Biers-Ariel
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