Neighbourhood complexity of graphs of bounded twin-width

Abstract

We give essentially tight bounds for, (d,k), the maximum number of distinct neighbourhoods on a set X of k vertices in a graph with twin-width at most~d. Using the celebrated Marcus-Tardos theorem, two independent works [Bonnet et al., Algorithmica '22; Przybyszewski '22] have shown the upper bound (d,k) ≤slant ((O(d)))k, with a double-exponential dependence in the twin-width. The work of [Gajarsky et al., ICALP '22], using the framework of local types, implies the existence of a single-exponential bound (without explicitly stating such a bound). We give such an explicit bound, and prove that it is essentially tight. Indeed, we give a short self-contained proof that for every d and k (d,k) ≤slant (d+2)2d+1k = 2d+ d+(1)k, and build a bipartite graph implying (d,k) ≥slant 2d+ d+(1)k, in the regime when k is large enough compared to~d.