Locally common graphs
Abstract
Goodman proved that the sum of the number of triangles in a graph on nodes and its complement is at least ; in other words, this sum is minimized, asymptotically, by a random graph with edge density . Erd\H{o}s conjectured that a similar inequality will hold for in place of , but this was disproved by Thomason. But an analogous statement does hold for some other graphs, which are called {\it common graphs}. A characterization of common graphs seems, however, out of reach. Franek and R\"odl proved that is common in a weaker, local sense. Using the language of graph limits, we study two versions of locally common graphs. We sharpen a result of Jagger, \v{S}tov\'{\i}\v{c}ek and Thomason by showing that no graph containing can be locally common, but prove that all such graphs are weakly locally common. We also show that not all connected graphs are weakly locally common.
Keywords
Cite
@article{arxiv.1912.02926,
title = {Locally common graphs},
author = {Endre Csóka and Tamás Hubai and László Lovász},
journal= {arXiv preprint arXiv:1912.02926},
year = {2019}
}