Point counting for foliations over number fields

IF 4.6 Q2 MATERIALS SCIENCE, BIOMATERIALS

ACS Applied Bio Materials Pub Date : 2020-09-02 DOI:10.1017/fmp.2021.20

Gal Binyamini

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引用次数: 10

Abstract

Abstract Let${\mathbb M}$ be an affine variety equipped with a foliation, both defined over a number field ${\mathbb K}$. For an algebraic $V\subset {\mathbb M}$ over ${\mathbb K}$, write $\delta _{V}$ for the maximum of the degree and log-height of V. Write $\Sigma _{V}$ for the points where the leaves intersect V improperly. Fix a compact subset ${\mathcal B}$ of a leaf ${\mathcal L}$. We prove effective bounds on the geometry of the intersection ${\mathcal B}\cap V$. In particular, when $\operatorname {codim} V=\dim {\mathcal L}$ we prove that $\#({\mathcal B}\cap V)$ is bounded by a polynomial in $\delta _{V}$ and $\log \operatorname {dist}^{-1}({\mathcal B},\Sigma _{V})$. Using these bounds we prove a result on the interpolation of algebraic points in images of ${\mathcal B}\cap V$ by an algebraic map $\Phi $. For instance, under suitable conditions we show that $\Phi ({\mathcal B}\cap V)$ contains at most $\operatorname {poly}(g,h)$ algebraic points of log-height h and degree g. We deduce several results in Diophantine geometry. Following Masser and Zannier, we prove that given a pair of sections $P,Q$ of a nonisotrivial family of squares of elliptic curves that do not satisfy a constant relation, whenever $P,Q$ are simultaneously torsion their order of torsion is bounded effectively by a polynomial in $\delta _{P},\delta _{Q}$; in particular, the set of such simultaneous torsion points is effectively computable in polynomial time. Following Pila, we prove that given $V\subset {\mathbb C}^{n}$, there is an (ineffective) upper bound, polynomial in $\delta _{V}$, for the degrees and discriminants of maximal special subvarieties; in particular, it follows that the André–Oort conjecture for powers of the modular curve is decidable in polynomial time (by an algorithm depending on a universal, ineffective Siegel constant). 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.

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数域上叶理的点计数

摘要设${\mathbb M}$是一个仿射变体，具有一个叶状，它们都定义在一个数域${\mathbb K}$上。对于一个代数$V\subset {\mathbb M}$ / ${\mathbb K}$，将V的度数和对数高度的最大值写成$\delta _{V}$，将叶子与V不正确相交的点写成$\Sigma _{V}$。修复一个叶子的紧凑子集${\mathcal B}$${\mathcal L}$。我们证明了交点几何上的有效界${\mathcal B}\cap V$。特别地，当$\operatorname {codim} V=\dim {\mathcal L}$时，我们证明$\#({\mathcal B}\cap V)$是由$\delta _{V}$和$\log \operatorname {dist}^{-1}({\mathcal B},\Sigma _{V})$的多项式有界的。利用这些边界，我们证明了一个代数映射$\Phi $插值${\mathcal B}\cap V$图像中代数点的结果。例如，在适当的条件下，我们证明$\Phi ({\mathcal B}\cap V)$最多包含$\operatorname {poly}(g,h)$个对数高h和次g的代数点。我们推导出丢芬图几何中的几个结果。继Masser和Zannier之后，我们证明了给定不满足常数关系的非等平凡椭圆曲线平方族的一对截面$P,Q$，当$P,Q$同时被扭转时，它们的扭转阶有效地由$\delta _{P},\delta _{Q}$中的一个多项式限定;特别地，这种同时扭转点的集合可以在多项式时间内有效地计算。继Pila之后，我们证明了给定$V\subset {\mathbb C}^{n}$，对于极大特殊子变种的度数和判别式，在$\delta _{V}$中存在一个(无效的)上界多项式;特别地，它可以推导出模曲线幂的andr - oort猜想在多项式时间内是可确定的(通过依赖于一个通用的、无效的西格尔常数的算法)。继Schmidt之后，我们证明了我们的计数结果暗示了David先前使用超越方法获得的椭圆曲线上扭转点的伽罗瓦轨道下界。

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来源期刊

ACS Applied Bio Materials Chemistry-Chemistry (all)

CiteScore

9.40

自引率

2.10%

发文量

464