Extremal problems on the Hamiltonicity of claw-free graphs

Abstract

In 1962, Erdos proved that if a graph G with n vertices satisfies e(G)>\n-k2+k2,(n+1)/22+ n-122\, where the minimum degree δ(G)≥ k and 1≤ k≤(n-1)/2, then it is Hamiltonian. For n ≥ 2k+1, let Ekn=Kk (kK1+Kn-2k), where "" is the "join" operation. One can observe e(Ekn)=n-k2+k2 and Ekn is not Hamiltonian. As Ekn contains induced claws for k≥ 2, a natural question is to characterize all 2-connected claw-free non-Hamiltonian graphs with the largest possible number of edges. We answer this question completely by proving a claw-free analog of Erdos' theorem. Moreover, as byproducts, we establish several tight spectral conditions for a 2-connected claw-free graph to be Hamiltonian. Similar results for the traceability of connected claw-free graphs are also obtained. Our tools include Ryj\'acek's claw-free closure theory and Brousek's characterization of minimal 2-connected claw-free non-Hamiltonian graphs.