Petersen cores and the oddness of cubic graphs

Abstract

Let G be a bridgeless cubic graph. Consider a list of k 1-factors of G. Let Ei be the set of edges contained in precisely i members of the k 1-factors. Let μk(G) be the smallest |E0| over all lists of k 1-factors of G. If G is not 3-edge-colorable, then μ3(G) ≥ 3. In [E. Steffen, 1-factor and cycle covers of cubic graphs, J. Graph Theory 78(3) (2015) 195-206] it is shown that if μ3(G) = 0, then 2 μ3(G) is an upper bound for the girth of G. We show that μ3(G) bounds the oddness ω(G) of G as well. We prove that ω(G)≤ 23μ3(G). If μ3(G) = 23 μ3(G), then every μ3(G)-core has a very specific structure. We call these cores Petersen cores. We show that for any given oddness there is a cyclically 4-edge-connected cubic graph G with ω(G) = 23μ3(G). On the other hand, the difference between ω(G) and 23μ3(G) can be arbitrarily big. This is true even if we additionally fix the oddness. Furthermore, for every integer k≥ 3, there exists a bridgeless cubic graph G such that μ3(G)=k.