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We prove that for every $m$ there is a finite point set $\mathcal{P}$ in the plane such that no matter how $\mathcal{P}$ is three-colored, there is always a disk containing exactly $m$ points, all of the same color. This improves a result…

Combinatorics · Mathematics 2020-11-25 Gábor Damásdi , Pálvölgyi Dömötör

We study whether for a given planar family F there is an m such that any finite set of points can be 3-colored such that any member of F that contains at least m points contains two points with different colors. We conjecture that if F is a…

Combinatorics · Mathematics 2019-04-17 Balázs Keszegh , Dömötör Pálvölgyi

The inclusion relation between simple objects in the plane may be used to define geometric set systems, or hypergraphs. Properties of various types of colorings of these hypergraphs have been the subject of recent investigations, with…

Computational Geometry · Computer Science 2015-03-17 Jean Cardinal , Matias Korman

A conjecture of Erd\H{o}s, Graham, Montgomery, Rothschild, Spencer and Straus states that, with the exception of equilateral triangles, any two-coloring of the plane will have a monochromatic congruent copy of every three-point…

Combinatorics · Mathematics 2024-11-20 Gabriel Currier , Kenneth Moore , Chi Hoi Yip

Given integers $m\le c$ and an exact $c$-coloring of the edges of a complete countably infinite graph (i.e. a coloring that uses exactly $c$ colors), must there be an infinite subgraph that is exactly $m$-colored? Using the Infinite Ramsey…

Combinatorics · Mathematics 2025-12-05 Žarko Ranđelović

We show that every $n$-vertex planar graph is 3-colourable with monochromatic components of size $O(n^{4/9})$. The best previous bound was $O(n^{1/2})$ due to Linial, Matou\v{s}ek, Sheffet and Tardos [Combin. Probab. Comput., 2008].

Combinatorics · Mathematics 2025-07-08 Vida Dujmović , Pat Morin , Sergey Norin , David R. Wood

We give a full, correct proof of the following result, earlier claimed by Erd\H{o}s and Komj\'ath. If the Continuum Hypothesis holds then there is a coloring of the plane with countably many colors, with no monocolored right triangle.

Logic · Mathematics 2023-02-24 Balázs Bursics , Péter Komjáth

We prove that for any partition of the plane into a closed set $C$ and an open set $O$ and for any configuration $T$ of three points, there is a translated and rotated copy of $T$ contained in $C$ or in $O$. Apart from that, we consider…

Combinatorics · Mathematics 2011-04-29 Vit Jelinek , Jan Kyncl , Rudolf Stolar , Tomas Valla

We settle a problem of Havel by showing that there exists an absolute constant d such that if G is a planar graph in which every two distinct triangles are at distance at least d, then G is 3-colorable. In fact, we prove a more general…

Combinatorics · Mathematics 2020-04-16 Zdenek Dvorak , Daniel Kral , Robin Thomas

We prove that any finite set of half-planes can be colored by two colors so that every point of the plane, which belongs to at least three half-planes in the set, is covered by half-planes of both colors. This settles a problem of Keszegh.

Combinatorics · Mathematics 2011-08-05 Radoslav Fulek

We prove that for any $\ell_p$-norm in the plane with $1<p<\infty$ and for every infinite $\mathcal{M} \subset \mathbb{R}^2$, there exists a two-colouring of the plane such that no isometric copy of $\mathcal{M}$ is monochromatic. On the…

Combinatorics · Mathematics 2025-09-29 Nóra Frankl , Panna Gehér , Arsenii Sagdeev , Géza Tóth

The Cyclic Coloring Conjecture asserts that the vertices of every plane graph with maximum face size D can be colored using at most 3D/2 colors in such a way that no face is incident with two vertices of the same color. The Cyclic Coloring…

Combinatorics · Mathematics 2016-02-08 Michael Hebdige , Daniel Kral

We prove the existence of a function $f :\mathbb{N} \to \mathbb{N}$ such that the vertices of every planar graph with maximum degree $\Delta$ can be 3-colored in such a way that each monochromatic component has at most $f(\Delta)$ vertices.…

Combinatorics · Mathematics 2014-06-19 Louis Esperet , Gwenaël Joret

Hadwiger's transversal theorem gives necessary and sufficient conditions for a family of convex sets in the plane to have a line transversal. A higher dimensional version was obtained by Goodman, Pollack and Wenger, and recently a colorful…

Metric Geometry · Mathematics 2013-10-17 Andreas F. Holmsen , Edgardo Roldán-Pensado

We consider the problem of $2$-coloring geometric hypergraphs. Specifically, we show that there is a constant $m$ such that any finite set of points in the plane $\mathcal{S} \subset {\mathbb R}^2$ can be $2$-colored such that every…

Combinatorics · Mathematics 2017-06-13 Eyal Ackerman , Balázs Keszegh , Máté Vizer

We present an explicit family of hypergraphs with arbitrarily large uniformity and chromatic number that admit realizations in both geometric and number-theoretic settings. As an application, we give a new proof of a theorem of Chen, Pach,…

Combinatorics · Mathematics 2026-02-23 Gábor Damásdi

A conjecture due to the fourth author states that every $d$-regular planar multigraph can be $d$-edge-coloured, provided that for every odd set $X$ of vertices, there are at least $d$ edges between $X$ and its complement. For $d = 3$ this…

Discrete Mathematics · Computer Science 2012-10-30 Maria Chudnovsky , Katherine Edwards , Ken-ichi Kawarabayashi , Paul Seymour

The well-known Steinberg's conjecture asserts that any planar graph without 4- and 5-cycles is 3 colorable. In this note we have given a short algorithmic proof of this conjecture based on the spiral chains of planar graphs proposed in the…

Combinatorics · Mathematics 2007-05-23 I. Cahit

A system of sets forms an {\em $m$-fold covering} of a set $X$ if every point of $X$ belongs to at least $m$ of its members. A $1$-fold covering is called a {\em covering}. The problem of splitting multiple coverings into several coverings…

Metric Geometry · Mathematics 2015-05-27 János Pach , Dömötör Pálvölgyi

We show that for any set $S\subseteq \mathbb{Z}$, $|S|=4$ there exists a 3-coloring of $\mathbb{Z}$ in which every translate of $S$ receives all three colors. This implies that $S$ has a codensity of at most $1/3$, proving a conjecture of…

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