Motivic zeta functions of hyperplane arrangements

Abstract

For each central essential hyperplane arrangement A over an algebraically closed field, let ZAμ(T) denote the Denef-Loeser motivic zeta function of A. We prove a formula expressing ZAμ(T) in terms of the Milnor fibers of related hyperplane arrangements. We use this formula to show that the map taking each complex arrangement A to the Hodge-Deligne specialization of ZAμ(T) is locally constant on the realization space of any loop-free matroid. We also prove a combinatorial formula expressing the motivic Igusa zeta function of A in terms of the characteristic polynomials of related arrangements.