The number of independent sets in a graph with small maximum degree

Abstract

Let ind(G) be the number of independent sets in a graph G. We show that if G has maximum degree at most 5 then ind(G) ≤ 2 iso(G) Πuv ∈ E(G) ind(Kd(u),d(v))1d(u)d(v) (where d(·) is vertex degree, iso(G) is the number of isolated vertices in G and Ka,b is the complete bipartite graph with a vertices in one partition class and b in the other), with equality if and only if each connected component of G is either a complete bipartite graph or a single vertex. This bound (for all G) was conjectured by Kahn. A corollary of our result is that if G is d-regular with 1 ≤ d ≤ 5 then ind(G) ≤ (2d+1-1)|V(G)|2d, with equality if and only if G is a disjoint union of V(G)/2d copies of Kd,d. This bound (for all d) was conjectured by Alon and Kahn and recently proved for all d by the second author, without the characterization of the extreme cases. Our proof involves a reduction to a finite search. For graphs with maximum degree at most 3 the search could be done by hand, but for the case of maximum degree 4 or 5, a computer is needed.