Extensions of Erdos's 1962 theorem on non-Hamiltonian graphs

Abstract

For a positive integer k, a graph property H, and a graph parameter P, let exP(n, H; δ ≥ k) denote the maximum value of P over all n-vertex graphs with minimum degree at least k that do not possess the property H. The corresponding extremal families are denoted by EXP(n, H; δ ≥ k). For two disjoint graphs H1 and H2, let H1 H2 denote their (disjoint) union, i.e., the graph with vertex set V(H1) V(H2) and edge set E(H1) E(H2); and let H1 H2 denote their join. In 1962, Erdos established a classical theorem on the maximum number of edges in a non-Hamiltonian graph of given order and minimum degree. Motivated by recent work on feasible graph parameters in Ai2023, we prove several extensions of Erdos's 1962 theorem on non-Hamiltonian graphs. The first result gives a common generalization of the extremal theorem due to Erdos and its spectral analogs. As direct applications, we obtain complete solutions to open problems raised in the literature since 2016, thereby improving nearly all related prior results in this direction. Our proof technique differs somewhat from those in MR3539577,MR3556876. We also prove an analog theorem for the Hamiltonian-connected property and obtain a result which extends the theorem of F\"uredi, Kostochka, and Luo MR3843180 on Hamilton cycles.