Upper bounds for sunflower-free sets

Abstract

A collection of k sets is said to form a k-sunflower, or -system, if the intersection of any two sets from the collection is the same, and we call a family of sets F sunflower-free if it contains no sunflowers. Following the recent breakthrough of Ellenberg and Gijswijt and Croot, Lev and Pach we apply the polynomial method directly to Erdos-Szemer\'edi sunflower problem and prove that any sunflower-free family F of subsets of \1,2,…,n\ has size at most \[ |F|≤3nΣk≤ n/3nk≤(322/3)n(1+o(1)). \] We say that a set A⊂( Z/D Z)n=\1,2,…,D\n for D>2 is sunflower-free if every distinct triple x,y,z∈ A there exists a coordinate i where exactly two of xi,yi,zi are equal. Using a version of the polynomial method with characters :Z/DZ→C instead of polynomials, we show that any sunflower-free set A⊂( Z/D Z)n has size \[ |A|≤ cDn \] where cD=322/3(D-1)2/3. This can be seen as making further progress on a possible approach to proving the Erdos-Rado sunflower conjecture, which by the work of Alon, Sphilka and Umans is equivalent to proving that cD≤ C for some constant C independent of D.