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Coloring of Graphs Avoiding Bicolored Paths of a Fixed Length

EasyChair Preprint 6079

7 pagesDate: July 13, 2021

Abstract

The problem of finding the minimum number of colors to color a graph properly without containing any bicolored copy of a fixed family of subgraphs has been widely studied. Most well-known examples are star coloring and acyclic coloring of graphs (Gr\"unbaum, 1973) where bicolored copies of $P_4$ and cycles are not allowed, respectively. In this paper, we introduce a variation of these problems and study proper coloring of graphs not containing a bicolored path of a fixed length and provide general bounds for all graphs. A $P_k$-coloring of an undirected graph $G$ is a proper vertex coloring of $G$ such that there is no bicolored copy of $P_k$ in $G,$ and the minimum number of colors needed for a $P_k$-coloring of $G$ is called the {\it $P_k$-chromatic number} of $G,$ denoted by $s_k(G).$ We provide bounds on $s_k(G)$ for all graphs, in particular, proving that for any graph $G$ with maximum degree $d\geq 2,$ and $k\geq4,$ $s_k(G)=O(d^{\frac{k-1}{k-2}}).$ Moreover, we find the exact values for the $P_k$-chromatic number of the products of some cycles and paths for $k=5,6.$

Keyphrases: Star coloring, acyclic coloring, graphs

BibTeX entry
BibTeX does not have the right entry for preprints. This is a hack for producing the correct reference:
@booklet{EasyChair:6079,
  author    = {Alaittin Kırtışoğlu and Lale Özkahya},
  title     = {Coloring of Graphs Avoiding Bicolored Paths of a Fixed Length},
  howpublished = {EasyChair Preprint 6079},
  year      = {EasyChair, 2021}}
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