Growth of Hilbert coefficients of Syzygy modules

Abstract

Let (A,m) be a complete intersection ring of dimension d and let I be an m-primary ideal. Let M be a maximal \ A-module. For i = 0,1,·s,d, let eiI(M) denote the ith Hilbert -coefficient of M with respect to I. We prove that for i = 0, 1, 2, the function j eiI(SyzjA(M)) is of quasi-polynomial type with period 2. Let GI(M) be the associated graded module of M with respect to I. If GI(A) is Cohen-Macaulay and A ≤ 2 we also prove that the functions j depth \ GI(SyzA2j+i(M)) are eventually constant for i = 0, 1. Let I(M) = l → ∞ depth \ GIl(M). Finally we prove that if A = 2 and GI(A) is Cohen-Macaulay then the functions j I(SyzA2j + i(M)) are eventually constant for i = 0, 1.