English

Zeta functions and Alexander modules

Algebraic Geometry 2007-05-23 v1

Abstract

We introduce the etale framework to study Igusa zeta functions in several variables, generalizing the machinery of vanishing cycles in the univariate case. We define the etale Alexander modules, associated to a morphism of varieties F from X to affine r-space, a geometric point of X, and an object in the derived category of constructible l-adic sheaves on the inverse image of the r-torus under F. The Alexander modules are sheaves of modules on the scheme of continuous characters of the tame fundamental group of the r-torus. We formulate Loeser's Monodromy and Holomorphy Conjectures for multivariate p-adic zeta functions, and prove them in the case where dim(X)=2, generalizing results from the univariate case. Furthermore, we prove a comparison theorem with the transcendent case, we study a formula of Denef's for the zeta function in terms of a simultaneous embedded resolution, and we generalize a result concerning the degree of the zeta function to our setting.

Keywords

Cite

@article{arxiv.math/0404212,
  title  = {Zeta functions and Alexander modules},
  author = {Johannes Nicaise},
  journal= {arXiv preprint arXiv:math/0404212},
  year   = {2007}
}

Comments

21 pages