Sets of r-graphs that color all r-graphs

Abstract

An r-regular graph is an r-graph, if every odd set of vertices is connected to its complement by at least r edges. Let G and H be r-graphs. An H-coloring of G is a mapping f E(G) E(H) such that each r adjacent edges of G are mapped to r adjacent edges of H. For every r≥ 3, let Hr be an inclusion-wise minimal set of connected r-graphs, such that for every connected r-graph G there is an H ∈ Hr which colors G. We show that Hr is unique and characterize Hr by showing that G ∈ Hr if and only if the only connected r-graph coloring G is G itself. The Petersen Coloring Conjecture states that the Petersen graph P colors every bridgeless cubic graph. We show that if true, this is a very exclusive situation. Indeed, either H3 = \P\ or H3 is an infinite set and if r ≥ 4, then Hr is an infinite set. Similar results hold for the restriction on simple r-graphs. By definition, r-graphs of class 1 (i.e. those having edge-chromatic number equal to r) can be colored with any r-graph. Hence, our study will focus on those r-graphs whose edge-chromatic number is bigger than r, also called r-graphs of class 2. We determine the set of smallest r-graphs of class 2 and show that it is a subset of Hr.