2-universality in randomly perturbed graphs

Abstract

A graph G is called universal for a family of graphs F if it contains every element F ∈ F as a subgraph. Let F(n,2) be the family of all graphs with maximum degree 2. Ferber, Kronenberg, and Luh [Optimal Threshold for a Random Graph to be 2-Universal, to appear in Transactions of the American Mathematical Society] proved that there exists a C such that for p C (n-2/3 1/3 n ) the random graph G(n,p) a.a.s is F(n,2)-universal, which is asymptotically optimal. For any n-vertex graph Gα with minimum degree δ(Gα) α n Aigner and Brandt [Embedding arbitrary graphs of maximum degree two, Journal of the London Mathematical Society 48 (1993), 39-51] proved that Gα is F(n,2)-universal for an optimal α 2/3. In this note, we consider the model of randomly perturbed graphs, which is the union Gα G(n,p). We prove that Gα G(n,p) is a.a.s. F(n,2)-universal provided that α>0 and p=ω(n-2/3). This is asymptotically optimal and improves on both results from above in the respective parameter. Furthermore, this extends a result of B\"ottcher, Montgomery, Parczyk, and Person [Embedding spanning bounded degree subgraphs in randomly perturbed graphs, arXiv:1802.04603 (2018)], who embed a given F ∈ F(n,2) at these values. We also prove variants with universality for the family F(n,2), all graphs from F(n,2) with girth at least . For example, there exists an 0 depending only on α such that for all 0 already p=ω(1/n) is sufficient for F(n,2)-universality.