Polynomial partitioning for several sets of varieties

Abstract

We give a new, systematic proof for a recent result of Larry Guth and thus also extend the result to a setting with several families of varieties: For any integer D≥ 1 and any collection of sets 1,…,j of low-degree k-dimensional varieties in Rn there exists a non-zero polynomial p∈R[X1,…,Xn] of degree at most D so that each connected component of RnZ(p) intersects O(jDk-n|i|) varieties of i, simultaneously for every 1≤ i≤ j. For j=1 we recover the original result by Guth. Our proof, via an index calculation in equivariant cohomology, shows how the degrees of the polynomials used for partitioning are dictated by the topology, namely by the Euler class being given in terms of a top Dickson polynomial.