Four-term progression free sets with three-term progressions in all large subsets

Abstract

This paper is mainly concerned with sets which do not contain four-term arithmetic progressions, but are still very rich in three term arithmetic progressions, in the sense that all sufficiently large subsets contain at least one such progression. We prove that there exists a positive constant c and a set A ⊂ Fqn which does not contain a four-term arithmetic progression, with the property that for every subset A' ⊂ A with |A'| ≥ |A|1-c, A' contains a nontrivial three term arithmetic progression. We derive this from a more general quantitative Roth-type theorem in random subsets of Fqn, which improves a result of Kohayakawa-Luczak-R\"odl/Tao-Vu. We also discuss a similar phenomenon over the integers, where we show that for all ε >0, and all sufficiently large N ∈ N, there exists a four-term progression-free set A of size N with the property that for every subset A' ⊂ A with |A'| 1( N)1-ε · N contains a nontrivial three term arithmetic progression. Finally, we include another application of our methods, showing that for sets in Fqn or Z the property of "having nontrivial three-term progressions in all large subsets" is almost entirely uncorrelated with the property of "having large additive energy".