Flows and bisections in cubic graphs

Abstract

A k-weak bisection of a cubic graph G is a partition of the vertex-set of G into two parts V1 and V2 of equal size, such that each connected component of the subgraph of G induced by Vi (i=1,2) is a tree of at most k-2 vertices. This notion can be viewed as a relaxed version of nowhere-zero flows, as it directly follows from old results of Jaeger that every cubic graph G with a circular nowhere-zero r-flow has a r -weak bisection. In this paper we study problems related to the existence of k-weak bisections. We believe that every cubic graph which has a perfect matching, other than the Petersen graph, admits a 4-weak bisection and we present a family of cubic graphs with no perfect matching which do not admit such a bisection. The main result of this article is that every cubic graph admits a 5-weak bisection. When restricted to bridgeless graphs, that result would be a consequence of the assertion of the 5-flow Conjecture and as such it can be considered a (very small) step toward proving that assertion. However, the harder part of our proof focuses on graphs which do contain bridges.