DP color functions versus chromatic polynomials

Abstract

For any graph G, the chromatic polynomial of G is the function P(G,m) which counts the number of proper m-colorings of G for each positive integer m. The DP color function PDP(G,m) of G, introduced by Kaul and Mudrock in 2019, is a generalization of P(G,m) with PDP(G,m) P(G,m) for each positive integer m. Let PDP(G)≈ P(G) (resp. PDP(G)< P(G)) denote the property that PDP(G,m)=P(G,m) (resp. PDP(G,m)<P(G,m)) holds for sufficiently large integers m.It is an interesting problem of finding graphs G for which PDP(G)≈ P(G) (resp. PDP(G,m)<P(G,m)) holds. Kaul and Mudrock showed that if G has an even girth, then PDP(G)<P(G) and Mudrock and Thomason recently proved that PDP(G)≈ P(G) holds for each graph G which has a dominating vertex. We shall generalize their results in this article. For each edge e in G, let (e)=∞ if e is a bridge of G, and let (e) be the length of a shortest cycle in G containing e otherwise. We first show that if (e) is even for some edge e in G, then PDP(G)<P(G) holds. However, the converse statement of this conclusion fails with infinitely many counterexamples. We then prove that PDP(G)≈ P(G) holds for every graph G that contains a spanning tree T such that for each e∈ E(G) E(T), (e) is odd and e contained in a cycle C of length (e) with the property that (e')<(e) for each e'∈ E(C) (E(T) \e\). Some open problems are proposed in this article.