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In this paper, we study the rainbow Erd\H{o}s-Rothschild problem with respect to $k$-term arithmetic progressions. For a set of positive integers $S \subseteq [n]$, an $r$-coloring of $S$ is \emph{rainbow $k$-AP-free} if it contains no…

Combinatorics · Mathematics 2022-03-25 Hao Lin , Guanghui Wang , Wenling Zhou

For a set of positive integers $A \subseteq [n]$, an $r$-coloring of $A$ is rainbow sum-free if it contains no rainbow Schur triple. In this paper we initiate the study of the rainbow Erd\H{o}s-Rothchild problem in the context of sum-free…

Combinatorics · Mathematics 2023-04-05 Yangyang Cheng , Yifan Jing , Lina Li , Guanghui Wang , Wenling Zhou

We study a quantitative Ramsey-type problem on 3-term arithmetic progressions: how should the set of integers $[n] = \{1, 2, \dots, n\}$ be colored using 3 colors in order to maximize the number of rainbow 3-term arithmetic progressions? By…

Combinatorics · Mathematics 2026-01-12 Gabriel Elvin , Alexis Gonzales , Alejandro Rodriguez , Israel Wilbur

If we want to color $1,2,\ldots,n$ with the property that all 3-term arithmetic progressions are rainbow (that is, their elements receive 3 distinct colors), then, obviously, we need to use at least $n/2$ colors. Surprisingly, much fewer…

Combinatorics · Mathematics 2019-12-17 János Pach , István Tomon

Let [n]=\{1,\,2,...,\,n\} be colored in k colors. A rainbow AP(k) in [n] is a k term arithmetic progression whose elements have diferent colors. Conlon, Jungic and Radoicic [10] had shown that there exists an equinumerous 4-coloring of [4n]…

Combinatorics · Mathematics 2025-02-04 Subhajit Jana , Pratulananda Das

The input to the no-rainbow hypergraph coloring problem is a hypergraph $H$ where every hyperedge has $r$ nodes. The question is whether there exists an $r$-coloring of the nodes of $H$ such that all $r$ colors are used and there is no…

Data Structures and Algorithms · Computer Science 2021-04-07 Ghazaleh Parvini , David Fernández-Baca

For positive integers $n$, $d$, $k$ and $h$, let $[n]^d$ be the $d$-dimensional grid of order $n$, and we refer to the equation $\sum_{i=1}^{h}x_{1,i}=\cdots =\sum_{i=1}^{h}x_{k,i}$ as the {\it $B_{k,h}$-equation}, where $x_{1,1}, \ldots,…

Combinatorics · Mathematics 2026-04-21 Xihe Li , Runshan Wang

Given integers $r \geq 2$, $k \geq 3$ and $2 \leq s \leq \binom{k}{2}$, and a graph $G$, we consider $r$-edge-colorings of $G$ with no copy of a complete graph $K_k$ on $k$ vertices where $s$ or more colors appear, which are called…

Combinatorics · Mathematics 2021-03-23 Carlos Hoppen , Hanno Lefmann , Denilson Amaral Nolibos

A 3-coloring of the elements of an abelian group is said to be rainbow--free if there is no 3-term arithmetic progression with its members having pairwise distinct colors. We give a structural characterization of rainbow--free colorings of…

Combinatorics · Mathematics 2011-04-04 Amanda Montejano , Oriol Serra

Let p be a prime number and Zp be the cyclic group of order p. A coloring of Zp is called rainbow-free with respect to a certain equation, if it contains no rainbow solution of the same, that is, a solution whose elements have pairwise…

Combinatorics · Mathematics 2015-02-17 Mario Huicochea , Amanda Montejano

Fox--Grinshpun--Pach showed that every $3$-coloring of the complete graph on $n$ vertices without a rainbow triangle contains a clique of size $\Omega\left(n^{1/3}\log^2 n\right)$ which uses at most two colors, and this bound is tight up to…

Combinatorics · Mathematics 2016-12-05 Adam Zsolt Wagner

We prove a known 2-coloring of the integers $[N] := \{1,2,3,\ldots,N\}$ minimizes the number of monochromatic arithmetic 3-progressions under certain restrictions. A monochromatic arithmetic progression is a set of equally-spaced integers…

Combinatorics · Mathematics 2023-01-03 Torin Greenwood , Jonathan Kariv , Noah Williams

A coloured version of classic extremal problems dates back to Erd\H{o}s and Rothschild, who in 1974 asked which $n$-vertex graph has the maximum number of 2-edge-colourings without monochromatic triangles. They conjectured that the answer…

Combinatorics · Mathematics 2019-06-11 Shagnik Das , Roman Glebov , Benny Sudakov , Tuan Tran

We prove that every 3-coloring of the edges of the complete graph on n vertices without a rainbow triangle contains a set of order Omega(n^{1/3}log^2 n) which uses at most two colors, and this bound is tight up to a constant factor. This…

Combinatorics · Mathematics 2013-03-13 J. Fox , A. Grinshpun , J. Pach

We study rainbow-free colourings of $k$-uniform hypergraphs; that is, colourings that use $k$ colours but with the property that no hyperedge attains all colours. We show that $p^*=(k-1)(\ln n)/n$ is the threshold function for the existence…

Combinatorics · Mathematics 2021-08-30 Ragnar Groot Koerkamp , Stanislav Živný

Addressing a question of Cameron and Erd\Ho s, we show that, for infinitely many values of $n$, the number of subsets of $\{1,2,\ldots, n\}$ that do not contain a $k$-term arithmetic progression is at most $2^{O(r_k(n))}$, where $r_k(n)$ is…

Combinatorics · Mathematics 2016-05-11 József Balogh , Hong Liu , Maryam Sharifzadeh

An exact r-coloring of a set $S$ is a surjective function $c:S \rightarrow \{1, 2, \ldots,r\}$. A rainbow solution to an equation over $S$ is a solution such that all components are a different color. We prove that every 3-coloring of…

Combinatorics · Mathematics 2023-05-25 Katie Ansaldi , Gabriel Cowley , Eric Green , Kihyun Kim , JT Rapp

For maximal planar graphs of order $n\geq 4$, we prove that a vertex--coloring containing no rainbow faces uses at most $\lfloor\frac{2n-1}{3}\rfloor$ colors, and this is best possible. For maximal graph embedded on the projective plane, we…

Combinatorics · Mathematics 2012-10-26 Jorge L. Arocha , Amanda Montejano

We formulate a geometric version of the Erd\H{o}s-Hajnal conjecture that applies to finite projective geometries rather than graphs, in both its usual 'induced' form and the multicoloured form. The multicoloured conjecture states, roughly,…

Combinatorics · Mathematics 2025-10-17 Carolyn Chun , James Dylan Douthitt , Wayne Ge , Tony Huynh , Matthew E. Kroeker , Peter Nelson

In this paper, we investigate the anti-Ramsey (more precisely, anti-van der Waerden) properties of arithmetic progressions. For positive integers $n$ and $k$, the expression $aw([n],k)$ denotes the smallest number of colors with which the…

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