Occupancy fraction, fractional colouring, and triangle fraction

Abstract

Given >0, there exists f0 such that, if f0 f 2+1, then for any graph G on n vertices of maximum degree in which the neighbourhood of every vertex in G spans at most 2/f edges, (i) an independent set of G drawn uniformly at random has at least (1/2-)(n/) f vertices in expectation, and (ii) the fractional chromatic number of G is at most (2+)/ f. These bounds cannot in general be improved by more than a factor 2 asymptotically. One may view these as stronger versions of results of Ajtai, Koml\'os and Szemer\'edi (1981) and Shearer (1983). The proofs use a tight analysis of the hard-core model.