Transversal Hamilton paths and cycles

Abstract

Given a collection G =\G1,G2,…,Gm\ of graphs on the common vertex set V of size n, an m-edge graph H on the same vertex set V is transversal in G if there exists a bijection :E(H)→ [m] such that e ∈ E(G(e)) for all e∈ E(H). Denote δ(G):=*min\δ(Gi): i∈ [m]\. In this paper, we first establish a minimum degree condition for the existence of transversal Hamilton paths in G: if n=m+1 and δ(G)≥ n-12, then G contains a transversal Hamilton path. This solves a problem proposed by [Li, Li and Li, J. Graph Theory, 2023]. As a continuation of the transversal version of Dirac's theorem [Joos and Kim, Bull. Lond. Math. Soc., 2020] and the stability result for transversal Hamilton cycles [Cheng and Staden, arXiv:2403.09913v1], our second result characterizes all graph collections with minimum degree at least n2-1 and without transversal Hamilton cycles. We obtain an analogous result for transversal Hamilton paths. The proof is a combination of the stability result for transversal Hamilton paths or cycles, transversal blow-up lemma, along with some structural analysis.