The Weak Lefschetz Property for monomial complete intersections

Abstract

Let A= k[x1,...,xn]/(x1d,...,xnd), where k is an infinite field. If k has characteristic zero, then Stanley proved that A has the Weak Lefschetz Property (WLP). Henceforth, k has positive characteristic p. If n=3, then Brenner and Kaid have identified all d, as a function of p, for which A has the WLP. In the present paper, the analogous project is carried out for 4 n. If 4 n and p=2, then A has the WLP if and only if d=1. If n=4 and p is odd, then we prove that A has the WLP if and only if d=kq+r for integers k,q,d with 1 k p-12, r∈q-12,q+12, and q=pe for some non-negative integer e. If 5 n, then we prove that A has the WLP if and only if n(d-1)+32 p. We first interpret the WLP for the ring k[x1, ..., xn]/(x1d, ..., xnd) in terms of the degrees of the non-Koszul relations on the elements x1d, ..., xn-1d, (x1+ ... +xn-1)d in the polynomial ring k[x1, ..., xn-1]. We then exhibit a sufficient condition for k[x1, ..., xn]/(x1d, ..., xnd) to have the WLP. This condition is expressed in terms of the non-vanishing in k of determinants of various Toeplitz matrices of binomial coefficients. Frobenius techniques are used to produce relations of low degree on x1d, ..., xn-1d, (x1+ ... +xn-1)d. From this we obtain a necessary condition for A to have the WLP. We prove that the necessary condition is sufficient by showing that the relevant determinants are non-zero in k.