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The Matching Ramsey Number of Hypergraphs, Revisited (2101.04701v1)

Published 12 Jan 2021 in math.CO

Abstract: For positive integers $r$ and $t$, the hypergraph matching Ramsey number $R_r(s_1,\ldots,s_t)$ is the least integer $n$ such that for any $t$-hyperedge coloring of complete $r$-uniform hypergraph $K_nr$, there exists at least one $j\in{1,2,\ldots,t}$ such that the subhypergraph of all hyperedges receiving color $j$ contains at least one matching of size $s_j$. This parameter was completely determined by Alon, Frankl, and Lov\'asz in 1986. In 2015, the first present author and Hossein Hajiabolhassan found a sharp lower bound for the chromatic number of general Kneser hypergraphs by means of the notion of alternation number of hypergraphs. In this paper, as our first result, we establish a theory to give a development of this result. Doing so, as our second result, we resolve the problem of characterizing $R_r(s_1,s_2,\ldots,s_t)$. Our final result is introducing a generalization of $\mathbf{\mathbb{Z}_p}$-Tucker Lemma together with an application of this generalized lemma in determining the matching Ramsey number $R_r(s_1,s_2,\ldots,s_t)$.

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