Counterexamples to a conjecture of Harris on Hall ratio

Abstract: The Hall ratio of a graph G is the maximum value of v(H)/α(H) taken over all non-null subgraphs H ⊆ G. For any graph, the Hall ratio is a lower-bound on its fractional chromatic number. In this note, we present various constructions of graphs whose fractional chromatic number grows much faster than their Hall ratio. This refutes a conjecture of Harris.

“…For the second, it was only very recently shown by Dvořák, Ossona de Mendez, and Wu [23] (cf. also [12]) the existence of a family of graphs with Hall ratios at most 18 and unbounded fractional chromatic numbers. It remains an interesting open problem of Harris [32] to determine whether ρ(G) is always at least some constant fraction of χ f (G) for triangle-free graphs G. For the third inequality in (5), it is well known that the Kneser graphs [44].…”

Graph structure via local occupancy

“…For the second, it was only very recently shown by Dvořák, Ossona de Mendez, and Wu [23] (cf. also [12]) the existence of a family of graphs with Hall ratios at most 18 and unbounded fractional chromatic numbers. It remains an interesting open problem of Harris [32] to determine whether ρ(G) is always at least some constant fraction of χ f (G) for triangle-free graphs G. For the third inequality in (5), it is well known that the Kneser graphs [44].…”

Graph structure via local occupancy