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We define a morphism based upon a Latin square that generalizes the Thue-Morse morphism. We prove that fixed points of this morphism are overlap-free sequences generalizing results of Allouche - Shallit and Frid.

Number Theory · Mathematics 2007-10-31 C. Robinson Tompkins

To get another from a given latin square, we have to change at least 4 entries. We show how to find these entries and how to change them.

Combinatorics · Mathematics 2019-02-18 I. I. Deriyenko

Two Latin squares of order $n$ are $r$-orthogonal if, when superimposed, there are exactly $r$ distinct ordered pairs. The spectrum of all values of $r$ for Latin squares of order $n$ is known. A Latin square $A$ of order $n$ is…

Discrete Mathematics · Computer Science 2024-02-15 Sergey Bereg

An algorithm that uses the cycle structure of the rows, or the columns, of a Latin square to compute its autotopy group is introduced. As a result, a bound for the size of the autotopy group is obtained. This bound is used to show that the…

Combinatorics · Mathematics 2014-07-29 Daniel Kotlar

Latin squares and hypercubes are combinatorial designs with several applications in statistics, cryptography and coding theory. In this paper, we generalize a construction of Latin squares based on bipermutive cellular automata (CA) to the…

Discrete Mathematics · Computer Science 2020-04-16 Maximilien Gadouleau , Luca Mariot

A $k$-plex of a latin square is a collection of cells representing each row, column, and symbol precisely $k$ times. The classic case of $k=1$ is more commonly known as a transversal. We introduce the concept of a $k$-weight, an integral…

Combinatorics · Mathematics 2010-08-03 Kyle Pula

Let m and n be integers, $2 \leq m \leq n$. An m by n array consists of mn cells, arranged in m rows and n columns, and each cell contains exactly one symbol. A transversal of an array consists of m cells, one from each row and no two from…

Combinatorics · Mathematics 2007-05-23 Sherman K. Stein

Every Latin square of prime power order $q$ is uniquely described by a local permutation polynomial (LPP) in the polynomial ring $\mathbb{F}_q[x,y]$. Despite this equivalence, one may find in the literature only some preliminary results on…

Combinatorics · Mathematics 2025-10-13 Raúl M. Falcón , Jaime Gutiérrez , Jorge Jiménez Urroz

We prove that, for all even $n\geq10$, there exists a latin square of order $n$ with at least one transversal, yet all transversals coincide on $ \big\lfloor n/6 \big\rfloor$ entries. These latin squares have at least $ 19 n^2/36 + O(n)$…

Combinatorics · Mathematics 2024-12-18 Afsane Ghafari , Ian M. Wanless

For Latin squares the units (rows and columns) have fixed sum. The same holds for rows, columns, and blocks in Sudokus. Summing the elements of a unit yields a linear equation, and the set of all such equations forms a system of linear…

General Mathematics · Mathematics 2025-09-16 Ralf Pöppel

The well-known quadrangle criterion states that a latin square is isotopic to the Cayley table of a group if and only if all quadrangles spanned by the same triple of symbols coincide on the fourth symbol. Gowers and Long (2020)…

Combinatorics · Mathematics 2026-04-02 Anna A. Taranenko

A quantum Latin square is an $n \times n$ array of unit vectors where each row and column forms an orthonormal basis of a fixed complex vector space. We introduce the notion of $(G,G')$-invariant quantum Latin squares for finite groups $G$…

Quantum Algebra · Mathematics 2025-03-03 Arnbjörg Soffía Árnadóttir , David E. Roberson

A Latin array is a matrix of symbols in which no symbol occurs more than once within a row or within a column. A diagonal of an $n\times n$ array is a selection of $n$ cells taken from different rows and columns of the array. The weight of…

Combinatorics · Mathematics 2021-08-17 Darcy Best , Kyle Pula , Ian M. Wanless

A Latin square is reduced if its first row and column are in natural order. For Latin squares of a particular order $n$ there are four possible different parities. We confirm a conjecture of Stones and Wanless by showing asymptotic equality…

Combinatorics · Mathematics 2016-10-21 Nicholas J. Cavenagh , Ian M. Wanless

An array is row-Latin if no symbol is repeated within any row. An array is Latin if it and its transpose are both row-Latin. A transversal in an $n\times n$ array is a selection of $n$ different symbols from different rows and different…

Combinatorics · Mathematics 2018-01-10 Darcy Best , Kevin Hendrey , Ian M. Wanless , Tim E. Wilson , David R. Wood

A cubic polyhedron is a polyhedral surface whose edges are exactly all the edges of the cubic lattice. Every such polyhedron is a discrete minimal surface, and it appears that many (but not all) of them can be relaxed to smooth minimal…

Metric Geometry · Mathematics 2007-05-23 Chaim Goodman-Strauss , John M Sullivan

A latin bitrade is a pair of partial latin squares which are disjoint, occupy the same set of non-empty cells, and whose corresponding rows and columns contain the same set of entries. Dr\'apal (\cite{Dr9}) showed that a latin bitrade is…

Combinatorics · Mathematics 2008-03-08 Nicholas J. Cavenagh , Ales Drapal , Carlo Hamalainen

Quantum Latin squares are a generalization of classical Latin squares in quantum field and have wide applications in unitary error bases, mutually unbiased bases, $k$-uniform states and quantum error correcting codes. In this paper, we put…

Quantum Physics · Physics 2025-07-29 Yan Han , Yajuan Zang , Hongjiao Zhang , Zihong Tian

We define a cover of a Latin square to be a set of entries that includes at least one representative of each row, column and symbol. A cover is minimal if it does not contain any smaller cover. A partial transversal is a set of entries that…

Combinatorics · Mathematics 2020-04-30 Darcy Best , Trent Marbach , Rebecca J. Stones , Ian M. Wanless

We prove several results about substructures in Latin squares. First, we explain how to adapt our recent work on high-girth Steiner triple systems to the setting of Latin squares, resolving a conjecture of Linial that there exist Latin…

Combinatorics · Mathematics 2022-08-05 Matthew Kwan , Ashwin Sah , Mehtaab Sawhney , Michael Simkin