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Related papers: On the Three Colorability of Planar Graphs

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We prove that every planar triangle-free graph on $n$ vertices has fractional chromatic number at most $3-\frac{1}{n+1/3}$.

Combinatorics · Mathematics 2014-02-24 Zdeněk Dvořák , Jean-Sébastien Sereni , Jan Volec

DP-coloring is a generalization of list coloring, which was introduced by Dvo\v{r}\'{a}k and Postle [J. Combin. Theory Ser. B 129 (2018) 38--54]. Zhang [Inform. Process. Lett. 113 (9) (2013) 354--356] showed that every planar graph with…

Combinatorics · Mathematics 2022-06-13 Mengjiao Rao , Tao Wang

We prove that every triangle-free $4$-critical graph $G$ satisfies $e(G) \geq \frac{5v(G)+2}{3}$. This result gives a unified proof that triangle-free planar graphs are $3$-colourable, and that graphs of girth at least five which embed in…

Combinatorics · Mathematics 2022-07-01 Benjamin Moore , Evelyne Smith-Roberge

A graph G is dually chordal if there is a spanning tree T of G such that any maximal clique of G induces a subtree in T. This paper investigates the Colourability problem on dually chordal graphs. It will show that it is NP-complete in case…

Discrete Mathematics · Computer Science 2012-11-14 Arne Leitert

A vertex colouring of a graph is \emph{nonrepetitive} if there is no path for which the first half of the path is assigned the same sequence of colours as the second half. The \emph{nonrepetitive chromatic number} of a graph $G$ is the…

Combinatorics · Mathematics 2021-12-23 Vida Dujmović , Fabrizio Frati , Gwenaël Joret , David R. Wood

DP-coloring was introduced by Dvo\v{r}\'{a}k and Postle as a generalization of list coloring. It was originally used to solve a longstanding conjecture by Borodin, stating that every planar graph without cycles of lengths 4 to 8 is…

Combinatorics · Mathematics 2022-06-13 Rui Li , Tao Wang

A 2018 conjecture of Brewster, McGuinness, Moore, and Noel asserts that for $k \ge 3$, if a graph has chromatic number greater than $k$, then it contains at least as many cycles of length $0 \bmod k$ as the complete graph on $k+1$ vertices.…

Combinatorics · Mathematics 2023-12-12 Sean Kim , Michael E. Picollelli

An $i$-independent set is a set of vertices whose pairwise distance is at least $i+1$. A proper coloring (resp. a square coloring) of a graph is a partition of its vertices into independent (resp. $2$-independent) sets. A packing…

Combinatorics · Mathematics 2025-09-04 Ilkyoo Choi , Xujun Liu

A (not necessarily proper) vertex colouring of a graph has "clustering" $c$ if every monochromatic component has at most $c$ vertices. We prove that planar graphs with maximum degree $\Delta$ are 3-colourable with clustering $O(\Delta^2)$.…

Combinatorics · Mathematics 2023-06-22 Vida Dujmović , Louis Esperet , Pat Morin , Bartosz Walczak , David R. Wood

We consider cell colorings of drawings of graphs in the plane. Given a multi-graph $G$ together with a drawing $\Gamma(G)$ in the plane with only finitely many crossings, we define a cell $k$-coloring of $\Gamma(G)$ to be a coloring of the…

Combinatorics · Mathematics 2022-08-30 Christoph Hertrich , Felix Schröder , Raphael Steiner

In this paper we have shown without assuming the four color theorem of planar graphs that every (bridgeless) cubic planar graph has a three-edge-coloring. This is an old-conjecture due to Tait in the squeal of efforts in settling the…

Combinatorics · Mathematics 2007-05-23 I. Cahit

Higher chromatic numbers $\chi_s$ of simplicial complexes naturally generalize the chromatic number $\chi_1$ of a graph. In any fixed dimension $d$, the $s$-chromatic number $\chi_s$ of $d$-complexes can become arbitrarily large for…

Combinatorics · Mathematics 2019-06-28 Frank H. Lutz , Jesper M. Møller

Steinberg conjectured in 1976 that every planar graph with no cycles of length four or five is 3-colorable. We disprove this conjecture.

Combinatorics · Mathematics 2016-04-20 Vincent Cohen-Addad , Michael Hebdige , Daniel Kral , Zhentao Li , Esteban Salgado

We prove that the two-colouring number of any planar graph is at most 8. This resolves a question of Kierstead et al. [SIAM J. Discrete Math.~23 (2009), 1548--1560]. The result is optimal.

Combinatorics · Mathematics 2019-10-18 Zdeněk Dvořák , Adam Kabela , Tomáš Kaiser

A proper edge coloring of a graph $G$ is called acyclic if there is no bichromatic cycle in $G$. The acyclic chromatic index of $G$, denoted by $\chi'_a(G)$, is the least number of colors $k$ such that $G$ has an acyclic edge $k$-coloring.…

Combinatorics · Mathematics 2015-03-13 Jianfeng Hou

While every plane triangulation is colourable with three or four colours, Heawood showed that a plane triangulation is 3-colourable if and only if every vertex has even degree. In $d \geq 3$ dimensions, however, every $k \geq d+1$ may occur…

Combinatorics · Mathematics 2024-11-15 Tim Planken

This paper proves the following result: If $G$ is a planar graph and $L$ is a $4$-list assignment of $G$ such that $|L(x) \cap L(y)| \le 2$ for every edge $xy$, then $G$ is $L$-colourable. This answers a question asked by Kratochv\'{i}l,…

Combinatorics · Mathematics 2022-05-25 Xuding Zhu

Youngs proved that every non-bipartite quadrangulation of the projective plane $\mathbb{R}\mathrm{P}^2$ is 4-chromatic. Kaiser and Stehl\'{\i}k [J. Combin. Theory Ser. B 113 (2015), 1-17] generalised the notion of a quadrangulation to…

Combinatorics · Mathematics 2025-04-01 Tomáš Kaiser , On-Hei Solomon Lo , Atsuhiro Nakamoto , Yuta Nozaki , Kenta Ozeki

A graph $G$ is \emph{uniquely k-colorable} if the chromatic number of $G$ is $k$ and $G$ has only one $k$-coloring up to permutation of the colors. For a plane graph $G$, two faces $f_1$ and $f_2$ of $G$ are \emph{adjacent $(i,j)$-faces} if…

Combinatorics · Mathematics 2015-09-11 Zepeng Li , Naoki Matsumoto , Enqiang Zhu , Jin Xu , Tommy Jensen

Recently, Borodin, Kostochka, and Yancey (On $1$-improper $2$-coloring of sparse graphs. Discrete Mathematics, 313(22), 2013) showed that the vertices of each planar graph of girth at least $7$ can be $2$-colored so that each color class…

Combinatorics · Mathematics 2015-07-13 Maria Axenovich , Torsten Ueckerdt , Pascal Weiner