On the chromatic number of almost s-stable Kneser graphs

Abstract

In 2011, Meunier conjectured that for positive integers n,k,r,s with k≥ 2, r≥ 2, and n≥ (\r,s\)k, the chromatic number of s -stable r-uniform Kneser hypergraphs is equal to n- (\r,s\)(k-1)r-1 . It is a strengthened version of the conjecture proposed by Ziegler (2002), and Alon, Drewnowski and uczak (2009). The problem about the chromatic number of almost s-stable r -uniform Kneser hypergraphs has also been introduced by Meunier (2011). For the r=2 case of the Meunier conjecture, Jonsson (2012) provided a purely combinatorial proof to confirm the conjecture for s≥ 4 and n sufficiently large, and by Chen (2015) for even s and any n. The case s=3 is completely open, even the chromatic number of the usual almost s -stable Kneser graphs. In this paper, we obtain a topological lower bound for the chromatic number of almost s-stable r-uniform Kneser hypergraphs via a different approach. For the case r=2, we conclude that the chromatic number of almost s-stable Kneser graphs is equal to n-s(k-1) for all s≥ 2. Set t=n-s(k-1). We show that any proper coloring of an almost s-stable Kneser graph must contain a completely multicolored complete bipartite subgraph K t2 t2 . It follows that the local chromatic number of almost s -stable Kneser graphs is at least t2 +1. It is a strengthened result of Simonyi and Tardos (2007), and Meunier's (2014) lower bound for almost s-stable Kneser graphs.