The square of a Hamilton cycle in randomly perturbed graphs

Abstract

We investigate the appearance of the square of a Hamilton cycle in the model of randomly perturbed graphs, which is, for a given α ∈ (0,1), the union of any n-vertex graph with minimum degree α n and the binomial random graph G(n,p). This is known when α > 1/2, and we determine the exact perturbed threshold probability in all the remaining cases, i.e., for each α 1/2. We demonstrate that, as α ranges over the interval (0,1), the threshold performs a countably infinite number of `jumps'. Our result has implications on the perturbed threshold for 2-universality, where we also fully address all open cases.