Talk page

Title:
Incidence Bounds via Extremal Graph Theory

Speaker:
Istvan Tomon

Abstract:
A cornerstone result in geometry is the Szemerédi–Trotter theorem, which gives a sharp bound on the maximum number of incidences between m points and n lines in the real plane. A natural generalization of this is to consider point-hyperplane incidences in higher dimensions. As proposed by Chazelle in the 90's, we are interested in the maximum number of incidences between m points and n hyperplanes, assuming no s points lie in the intersection of s hyperplanes. The latter condition is needed to avoid trivialities, like all hyperplanes intersecting in a line, and all points contained in this line. Starting from dimension 3, matching lower and upper bounds are no longer known for this problem. I will talk about how to prove sharp bounds over arbitrary fields using methods from extremal graph theory, and discuss analogues of this problem concerning point-variety incidences and unit distance graphs. Based on a joint work with Aleksa Milojević and Benny Sudakov.

Link:
https://www.ias.edu/video/incidence-bounds-extremal-graph-theory