Asymptotic regularity of graded families of ideals

Abstract

We show that the asymptotic regularity of a graded family (In)n 0 of homogeneous ideals in a reduced standard graded algebra, i.e., the limit n → ∞ reg In/n, exists in several cases; for example, when the family (In)n 0 consists of artinian ideals, or Cohen-Macaulay ideals of the same codimension over an uncountable base field of characteristic 0, or when its Rees algebra is Noetherian. Many applications, including simplifications and generalizations of previously known results on symbolic powers and integral closures of powers of homogeneous ideals, are discussed. We provide a combinatorial interpretation of the limit n → ∞ reg In/n in terms of the associated Newton--Okounkov region in various situations. We give a negative answer to the question of whether the limits n → ∞ reg (I1n + … + Ipn)/n and n → ∞ reg (I1n ·s Ipn)/n exist, for p 2 and homogeneous ideals I1, …, Ip. We also examine ample evidence supporting a negative answer to the question of whether the asymptotic regularity of the family of symbolic powers of a homogeneous ideal always exists. Our work presents explicit Gr\"obner basis construction for ideals of the form Qn + (fk), where Q is a monomial ideal, f is a polynomial in the polynomial ring in 4 variables over a field of characteristic 2.