English

The arithmetic Hodge Index Theorem and rigidity of dynamical systems over function fields

Number Theory 2020-12-30 v2

Abstract

In one of the fundamental results of Arakelov's arithmetic intersection theory, Faltings and Hriljac (independently) proved the Hodge Index Theorem for arithmetic surfaces by relating the intersection pairing to the negative of the N\'eron-Tate height pairing. More recently, Moriwaki and Yuan-Zhang generalized this to higher dimension. In this work, we extend these results to projective varieties over transcendence degree one function fields. The new challenge is dealing with non-constant but numerically trivial line bundles coming from the constant field via Chow's K/kK/k-trace functor. As an application of the Hodge Index Theorem, we also prove a rigidity theorem for the set of canonical height zero points of polarized algebraic dynamical systems over function fields. For function fields over finite fields, this gives a rigidity theorem for preperiodic points, generalizing previous work of Mimar, Baker-DeMarco, and Yuan-Zhang.

Keywords

Cite

@article{arxiv.1810.06342,
  title  = {The arithmetic Hodge Index Theorem and rigidity of dynamical systems over function fields},
  author = {Alexander Carney},
  journal= {arXiv preprint arXiv:1810.06342},
  year   = {2020}
}

Comments

26 pages. New version fixes technical errors, reorganizes for clarity, and adds brief commentary about preperiodic points over function fields without the Northcott property

R2 v1 2026-06-23T04:39:49.372Z