A note on list-coloring powers of graphs
classification
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graphstherechromatic-choosablefamilyansweraskedboundconstant
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Recently, Kim and Park have found an infinite family of graphs whose squares are not chromatic-choosable. Xuding Zhu asked whether there is some $k$ such that all $k$th power graphs are chromatic-choosable. We answer this question in the negative: we show that there is a positive constant $c$ such that for any $k$ there is a family of graphs $G$ with $\chi(G^k)$ unbounded and $\chi_{\ell}(G^k)\geq c \chi(G^k) \log \chi(G^k)$. We also provide an upper bound, $\chi_{\ell}(G^k)<\chi(G^k)^3$ for $k>1$.
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Cited by 1 Pith paper
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Coloring, List Coloring, and Painting Squares of Graphs (and other related problems)
This is a survey compiling results on strong edge-coloring and related coloring problems for squares of graphs in planar and sparse classes.
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