Colour-biased Hamilton cycles in randomly perturbed graphs

Abstract

Given a graph G and an r-edge-colouring on E(G), a Hamilton cycle H⊂ G is said to have t colour-bias if H contains n/r+t edges of the same colour in . Freschi, Hyde, Lada and Treglown showed every r-coloured graph G on n vertices with δ(G)≥(r+1)n/2r+t contains a Hamilton cycle H with (t) colour-bias, generalizing a result of Balogh, Csaba, Jing and Pluh\'ar. In 2022, Gishboliner, Krivelevich and Michaeli proved that the random graph G(n,m) with m≥(1/2+)n n typically admits an (n) colour biased Hamilton cycle in any r-colouring. In this paper, we investigate colour-biased Hamilton cycles in randomly perturbed graphs. We show that for every α>0, adding m=O(n) random edges to a graph Gα with δ(Gα)≥ α n typically ensures a Hamilton cycle with (n) colour bias in any r-colouring of Gα G(n,m). Conversely, for certain Gα, reducing the number of random edges to m=o(n) may eliminate all colour biased Hamilton cycles of G(n,m) G in a certain colouring. In contrast, at the critical endpoint α=(r+1)/2r, adding m random edges typically results in a Hamilton cycle with (m) colour-bias for any 1 m≤ n.