Necessary Spectral Conditions for Coloring Hypergraphs
Combinatorics
2014-12-15 v1 Discrete Mathematics
Abstract
Hoffman proved that for a simple graph , the chromatic number obeys where and are the maximal and minimal eigenvalues of the adjacency matrix of respectively. Lov\'asz later showed that for any (perhaps negatively) weighted adjacency matrix. In this paper, we give a probabilistic proof of Lov\'asz's theorem, then extend the technique to derive generalizations of Hoffman's theorem when allowed a certain proportion of edge-conflicts. Using this result, we show that if a 3-uniform hypergraph is 2-colorable, then where is the average degree and is the minimal eigenvalue of the underlying graph. We generalize this further for -uniform hypergraphs, for the cases and , by considering several variants of the underlying graph.
Cite
@article{arxiv.1412.3855,
title = {Necessary Spectral Conditions for Coloring Hypergraphs},
author = {Franklin H. J. Kenter},
journal= {arXiv preprint arXiv:1412.3855},
year = {2014}
}
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7 pages