Cops and robber on subclasses of P5-free graphs

Abstract

The game of cops and robber is a turn based vertex pursuit game played on a connected graph between a team of cops and a single robber. The cops and the robber move alternately along the edges of the graph. We say the team of cops win the game if a cop and the robber are at the same vertex of the graph. The minimum number of cops required to win in each component of a graph is called the cop number of the graph. Sivaraman [Discrete Math. 342(2019), pp. 2306-2307] conjectured that for every t≥ 5, the cop number of a connected Pt-free graph is at most t-3, where Pt denotes a path on t~vertices. Turcotte [Discrete Math. 345 (2022), pp. 112660] showed that the cop number of any 2K2-free graph is at most 2, which was earlier conjectured by Sivaraman and Testa. Note that if a connected graph is 2K2-free, then it is also P5-free. Liu showed that the cop number of a connected (Pt, H)-free graph is at most t-3, where H is a cycle of length at most t or a claw. So the conjecture of Sivaraman is true for (P5, H)-free graphs, where H is a cycle of length at most 5 or a claw. In this paper, we show that the cop number of a connected (P5,H)-free graph is at most 2, where H∈ \C4, C5, diamond, paw, K4, 2K1 K2, K3 K1, P3 P1\.