Generalized incidence theorems, homogeneous forms, and sum-product estimates in finite fields

Abstract

In recent years, sum-product estimates in Euclidean space and finite fields have been studied using a variety of combinatorial, number theoretic and analytic methods. Erdos type problems involving the distribution of distances, areas and volumes have also received much attention. In this paper we prove a relatively straightforward function version of an incidence results for points and planes previously established in HI07 and HIKR07. As a consequence of our methods, we obtain sharp or near sharp results on the distribution of volumes determined by subsets of vector spaces over finite fields and the associated arithmetic expressions. In particular, our machinery enables us to prove that if E ⊂ Fqd, d 4, the d-dimensional vector space over a finite field Fq, of size much greater than qd2, and if E is a product set, then the set of volumes of d-dimensional parallelepipeds determined by E covers Fq. This result is sharp as can be seen by taking E to equal to A × A × ... × A, where A is a sub-field of Fq of size q. In three dimensions we establish the same result if |E| q15/8. We prove in three dimensions that the set of volumes covers a positive proportion of Fq if |E| Cq3/2. Finally we show that in three dimensions the set of volumes covers a positive proportion of Fq if |E| Cq2, without any further assumptions on E, which is again sharp as taking E to be a 2-plane through the origin shows.