Large point-line matchings and small Nikodym sets

Abstract

For any integer d ≥ 2 and prime power q, we construct unexpectedly large induced matchings in the point-line incidence graph of Fqd by leveraging a new connection with the Furstenberg-S\'ark\"ozy problem from arithmetic combinatorics. In particular, we significantly improve the previously well-known baselines when q is prime, showing that Fq2 contains matchings of size q1.233 and Fqd contains matchings of size qd-od(1). These results and their proofs have several applications. First, we also obtain new constructions for finite field Nikodym sets in dimension d ≥ 2, improving recent results of Tao by polynomial factors. For example, when q is prime, we show the existence of Nikodym sets in Fqd of size qd - qd - od(1). Second, we construct a new minimal blocking set in PG(2,q), solving a longstanding problem in finite geometry. Third, we obtain new constructions for the minimal distance problem (in R2 and also in higher dimensions), improving a recent result of Logunov-Zakharov. We also obtain analogous results for general finite fields with large characteristics. In particular, in one of our constructions we introduce a new special set of points inside the norm hypersurface in Fqd, which directly generalizes the classical Hermitian unital and which may be of independent interest for applications.