泛世界的特米勒理论I:霍奇剧院的构建

IF 1.1 2区 数学 Q1 MATHEMATICS Publications of the Research Institute for Mathematical Sciences Pub Date : 2021-03-04 DOI:10.4171/PRIMS/57-1-1
S. Mochizuki
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引用次数: 32

摘要

本论文是一系列四篇论文中的第一篇,其目标是通过应用作者在早期论文中发展的拟似曲面、Frobenioids、 δ函数和对数壳的半图理论,建立具有椭圆曲线的数域的teichm ller理论的算术版本-我们称之为“泛域teichm ller理论”。我们首先固定我们所说的“初始Θ-data”,它由一个椭圆曲线EF在一个数字域F上,一个素数l≥5,以及其他一些满足一定技术性质的技术数据组成。这个数据确定了各种双曲的圆曲线,这些曲线通过有限的模数覆盖与由EF确定的一次被刺穿的椭圆曲线XF相关。由于椭圆曲线的l-扭转点作用于环Fl = Z/lZ上的加性和乘性结构,这些有限的可变复盖具有各种对称性质。然后,我们构建与给定Θ-data相关联的“Θ±ellNF-Hodge剧院”。这些Θ±ellNF-Hodge剧场可以被认为是传统方案理论的微型模型,其中数字域的两个潜在组合维度——可以被认为与环的加法和乘法结构相对应,或者,与与数字域相关的局部域的单位群和值群相对应——在某种意义上,彼此“拆除”或“解除纠缠”。所有Θ±ellNF-Hodge剧院都是彼此同构的,但也可能通过“Θ-link”相互关联,这将一个Θ±ellNF-Hodge剧院的某些frobenioid理论部分以一种与各自传统环/方案理论结构不兼容的方式联系起来。特别是,将Θ-link两边的环结构相互联系起来是一个非常重要的问题。这将实现,直到某些“相对温和的不确定性”,在该系列的未来论文中,通过应用作者在以前的论文中发展的绝对可逆几何。根据给定环结构(例如与Θ-link的上域相关)对“异环结构”(例如与Θ-link的域相关)的结果描述将应用于本系列的最后一篇论文,以获得丢番图几何的结果。最后,我们讨论了关于p进双曲曲线的缓变基群的分解和惯性群的无限共轭的某些技术结果,这些结果将用于本系列论文的理论发展,但也是独立的兴趣。
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Inter-universal Teichmüller Theory I: Construction of Hodge Theaters
The present paper is the first in a series of four papers, the goal of which is to establish an arithmetic version of Teichmüller theory for number fields equipped with an elliptic curve — which we refer to as “inter-universal Teichmüller theory” — by applying the theory of semi-graphs of anabelioids, Frobenioids, the étale theta function, and log-shells developed in earlier papers by the author. We begin by fixing what we call “initial Θ-data”, which consists of an elliptic curve EF over a number field F , and a prime number l ≥ 5, as well as some other technical data satisfying certain technical properties. This data determines various hyperbolic orbicurves that are related via finite étale coverings to the once-punctured elliptic curve XF determined by EF . These finite étale coverings admit various symmetry properties arising from the additive and multiplicative structures on the ring Fl = Z/lZ acting on the l-torsion points of the elliptic curve. We then construct “Θ±ellNF-Hodge theaters” associated to the given Θ-data. These Θ±ellNF-Hodge theaters may be thought of as miniature models of conventional scheme theory in which the two underlying combinatorial dimensions of a number field — which may be thought of as corresponding to the additive and multiplicative structures of a ring or, alternatively, to the group of units and value group of a local field associated to the number field — are, in some sense, “dismantled” or “disentangled” from one another. All Θ±ellNF-Hodge theaters are isomorphic to one another, but may also be related to one another by means of a “Θ-link”, which relates certain Frobenioid-theoretic portions of one Θ±ellNF-Hodge theater to another in a fashion that is not compatible with the respective conventional ring/scheme theory structures. In particular, it is a highly nontrivial problem to relate the ring structures on either side of the Θ-link to one another. This will be achieved, up to certain “relatively mild indeterminacies”, in future papers in the series by applying the absolute anabelian geometry developed in earlier papers by the author. The resulting description of an “alien ring structure” [associated, say, to the domain of the Θ-link] in terms of a given ring structure [associated, say, to the codomain of the Θ-link] will be applied in the final paper of the series to obtain results in diophantine geometry. Finally, we discuss certain technical results concerning profinite conjugates of decomposition and inertia groups in the tempered fundamental group of a p-adic hyperbolic curve that will be of use in the development of the theory of the present series of papers, but are also of independent interest.
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CiteScore
1.90
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0.00%
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26
审稿时长
>12 weeks
期刊介绍: The aim of the Publications of the Research Institute for Mathematical Sciences (PRIMS) is to publish original research papers in the mathematical sciences.
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The Geometry of Hyperbolic Curvoids Affine Super Schur Duality Integrality of \boldmath$v$-adic Multiple Zeta Values Extended Affine Root Supersystems of Types $C(I, J)$ and $BC(1, 1)$ Bigraded Lie Algebras Related to Multiple Zeta Values
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