English

Point counting for foliations over number fields

Algebraic Geometry 2023-06-22 v1 Logic Number Theory

Abstract

We consider an algebraic variety and its foliation, both defined over a number field. We prove upper bounds for the geometric complexity of the intersection between a leaf of the foliation and a subvariety of complementary dimension (also defined over a number field). Our bounds depend polynomially on the degrees, logarithmic heights, and the logarithmic distance to a certain \emph{locus of unlikely intersections}. Under suitable conditions on the foliation, we show that this implies a bound, polynomial in the degree and height, for the number of algebraic points on transcendental sets defined using such foliations. We deduce several results in Diophantine geometry. i) Following Masser-Zannier, we prove that given a pair of sections P,QP,Q of a non-isotrivial family of squares of elliptic curves that do not satisfy a constant relation, whenever P,QP,Q are simultaneously torsion their order of torsion is bounded effectively by a polynomial in the degrees and log-heights of the sections P,QP,Q. In particular the set of such simultaneous torsion points is effectively computable in polynomial time. ii) Following Pila, we prove that given VCnV\subset\mathbb{C}^n there is an (ineffective) upper bound, polynomial in the degree and log-height of V, for the degrees and discriminants of maximal special subvarieties. In particular it follows that Andr\'e-Oort for powers of the modular curve is decidable in polynomial time (by an algorithm depending on a universal, ineffective Siegel constant). iii) Following Schmidt, we show that our counting result implies a Galois-orbit lower bound for torsion points on elliptic curves of the type previously obtained using transcendence methods by David.

Keywords

Cite

@article{arxiv.2009.00892,
  title  = {Point counting for foliations over number fields},
  author = {Gal Binyamini},
  journal= {arXiv preprint arXiv:2009.00892},
  year   = {2023}
}
R2 v1 2026-06-23T18:15:39.714Z