论文信息 - On Rainbow-Cycle-Forbidding Edge Colorings of Finite Graphs

On Rainbow-Cycle-Forbidding Edge Colorings of Finite Graphs

It is shown that whenever the edges of a connected simple graph on n vertices are colored with $$n-1$$ colors appearing so that no cycle in G is rainbow, there must be a monochromatic edge cut in G. From this it follows that such colorings of G can be represented, or ‘encoded,’ by full binary trees with n leaves, with vertices labeled by subsets of V(G), such that the leaf labels are singletons, the label of each non-leaf is the union of the labels of its children, and each label set induces a connected subgraph of G. It is also shown that $$n-1$$ is the largest integer for which the main theorem holds, for each n, although for some graphs a certain strengthening of the hypothesis makes the theorem conclusion true with $$n-1$$ replaced by $$n-2$$.

Paul Horn | Dean Hoffman | Peter Johnson | Andrew Owens

[1] Fan Chung Graham,et al. Decomposition of Random Graphs into Complete Bipartite Graphs , 2016, SIAM J. Discret. Math..

[2] Ronald L. Graham,et al. On the addressing problem for loop switching , 1971 .

[3] Noga Alon,et al. More on the Bipartite Decomposition of Random Graphs , 2014, J. Graph Theory.

[4] Noga Alon,et al. Bipartite decomposition of random graphs , 2014, J. Comb. Theory, Ser. B.

[5] Roman Soták,et al. Rainbow faces in edge-colored plane graphs , 2009 .