Longer Cycles in Essentially 4-Connected Planar Graphs

Abstract

A planar 3-connected graph G is called essentially 4-connected if, for every 3-separator S, at least one of the two components of G-S is an isolated vertex. Jackson and Wormald proved that the length circ(G) of a longest cycle of any essentially 4-connected planar graph G on n vertices is at least 2n+45 and Fabrici, Harant and Jendrol' improved this result to circ(G)≥ 12(n+4). In the present paper, we prove that an essentially 4-connected planar graph on n vertices contains a cycle of length at least 35(n+2) and that such a cycle can be found in time O(n2).