Colouring the 1-skeleton of $d$-dimensional triangulations

arXiv - MATH - Combinatorics Pub Date : 2024-09-18 DOI:arxiv-2409.11762
Tim Planken
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Abstract

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 as the chromatic number of some triangulation of ${\mathbb S}^d$. As a first step, Joswig structurally characterised which triangulations of ${\mathbb S}^d$ have a $(d+1)$-colourable 1-skeleton. In the 20 years since Joswig's result, no characterisations have been found for any $k>d+1$. In this paper, we structurally characterise which triangulations of ${\mathbb S}^d$ have a $(d+2)$-colourable 1-skeleton: they are precisely the triangulations that have a subdivision such that for every $(d-2)$-cell, the number of incident $(d-1)$-cells is divisible by three.
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为 $d$ 维三角形的 1-骨架着色
虽然每个平面三角剖分都有三色或四色,但希伍德证明,当且仅当每个顶点都有偶数度时,一个平面三角剖分才是三色的。然而,在 $d \geq 3$ 维中,每一个 $k \geq d+1$ 都可能作为 ${mathbb S}^d$ 的某个三角形的色度数出现。作为第一步,约斯维格从结构上描述了哪些${\mathbb S}^d$ 三角形具有$(d+1)$有利的 1-骨架。在约斯维格提出这一结果后的 20 年里,还没有发现任何 $k>d+1$ 的特征。在本文中,我们从结构上描述了${\mathbbS}^d$的哪些三角剖分具有$(d+2)$有利的 1-骨架:它们正是具有这样一个细分的三角剖分:对于每一个$(d-2)$单元,其附带的$(d-1)$单元的数目是可以被三整除的。
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arXiv - MATH - Combinatorics
arXiv - MATH - Combinatorics
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