Minimum Degree Threshold for H-factors with High Discrepancy

Abstract

Given a graph H, a perfect H-factor in a graph G is a collection of vertex-disjoint copies of H spanning G. K\"uhn and Osthus showed that the minimum degree threshold for a graph G to contain a perfect H-factor is either given by 1-1/(H) or by 1-1/cr(H) depending on certain natural divisibility considerations. Given a graph G of order n, a 2-edge-coloring of G and a subgraph G' of G, we say that G' has high discrepancy if it contains significantly (linear in n) more edges of one color than the other. Balogh, Csaba, Pluh\'ar and Treglown asked for the minimum degree threshold guaranteeing that every 2-edge-coloring of G has an H-factor with high discrepancy and they settled the case where H is a clique. Here we completely resolve this question by determining the minimum degree threshold for high discrepancy of H-factors for every graph H.