o -极小指数场的代数和模型论性质

L. S. Krapp
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This study is mainly motivated by the Transfer Conjecture, which states as follows: Any o-minimal exponential field \n$(K,+,-,\\cdot ,0,1,<,\\exp )$\n whose exponential satisfies the differential equation \n$\\exp ' = \\exp $\n with initial condition \n$\\exp (0)=1$\n is elementarily equivalent to \n$\\mathbb {R}_{\\exp }$\n . Here, \n$\\mathbb {R}_{\\exp }$\n denotes the real exponential field \n$(\\mathbb {R},+,-,\\cdot ,0,1,<,\\exp )$\n , where \n$\\exp $\n denotes the standard exponential \n$x \\mapsto \\mathrm {e}^x$\n on \n$\\mathbb {R}$\n . Moreover, elementary equivalence means that any first-order sentence in the language \n$\\mathcal {L}_{\\exp } = \\{+,-,\\cdot ,0,1, <,\\exp \\}$\n holds for \n$(K,+,-,\\cdot ,0,1,<,\\exp )$\n if and only if it holds for \n$\\mathbb {R}_{\\exp }$\n . The Transfer Conjecture, and thus the study of o-minimal exponential fields, is of particular interest in the light of the decidability of \n$\\mathbb {R}_{\\exp }$\n . To the date, it is not known if \n$\\mathbb {R}_{\\exp }$\n is decidable, i.e., whether there exists a procedure determining for a given first-order \n$\\mathcal {L}_{\\exp }$\n -sentence whether it is true or false in \n$\\mathbb {R}_{\\exp }$\n . However, under the assumption of Schanuel’s Conjecture—a famous open conjecture from Transcendental Number Theory—a decision procedure for \n$\\mathbb {R}_{\\exp }$\n exists (cf. [7]). Also a positive answer to the Transfer Conjecture would result in the decidability of \n$\\mathbb {R}_{\\exp }$\n (cf. [1]). Thus, we study o-minimal exponential fields with regard to the Transfer Conjecture, Schanuel’s Conjecture, and the decidability question of \n$\\mathbb {R}_{\\exp }$\n . Overall, we shed light on the valuation theoretic invariants of o-minimal exponential fields—the residue field and the value group—with additional induced structure. 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引用次数: 8

摘要

在有序域$(K,+,-,\cdot,0,1,0},\cdot,1,<)$上的指数$\exp $。结构$(K,+,-,\cdot,0,1,<,\exp)$则称为有序指数域(参见[6])。如果M的每一个参数可定义的子集是M的点和开区间的有限并,则称为线性有序结构$(M,<,\ldots)$。本文的主要课题是0 -极小指数域$(K,+,-,\cdot,0,1,<,\exp)$的指数满足初始条件$\exp(0) = 1$的微分方程$\exp ' = \exp $的代数和模型理论检验。本研究的主要动机是转移猜想,该猜想指出:任何0 -极小指数域$(K,+,-,\cdot,0,1,<,\exp)$,其指数满足微分方程$\exp ' = \exp $,初始条件$\exp(0)=1$,其初等等价于$\mathbb {R}_{\exp}$。这里,$\mathbb {R}_{\exp}$表示实指数域$(\mathbb {R},+,-,\cdot,0,1,<,\exp)$,其中$\exp $表示标准指数$x \映射到$\mathbb {R}$上的\mathbb {e}^x$。此外,初等等价意味着语言$\mathcal {L}_{\exp} = \{+,-,\cdot,0,1,<,\exp \}$中的任何一阶句子对$(K,+,-,\cdot,0,1,<,\exp)$成立当且仅当它对$\mathbb {R}_{\exp}$成立。传递猜想,以及0 -极小指数场的研究,在$\mathbb {R}_{\exp}$的可判定性下是特别有趣的。到目前为止,还不知道$\mathbb {R}_{\exp}$是否可判定,也就是说,是否存在一个过程来确定给定的一阶$\mathcal {L}_{\exp}$ -句子在$\mathbb {R}_{\exp}$中是真还是假。然而,在Schanuel猜想——一个著名的超越数论的开放猜想——的假设下,存在一个$\mathbb {R}_{\exp}$的判定过程(参见[7])。同样,对转移猜想的正答案将导致$\mathbb {R}_{\exp}$的可判定性(参见[1])。因此,我们研究了关于转移猜想、Schanuel猜想和$\mathbb {R}_{\exp}$的可决性问题的0 -极小指数场。总的来说,我们揭示了带有附加诱导结构的o-极小指数域-剩余域和值群的估值理论不变量。此外,我们还探讨了0 -极小指数域的初等子结构和到极大端的扩展——最小的初等子结构是素数模型,最大的初等扩展包含在超现实数中。进一步,我们绘制了与Peano算术模型、整数部分、实闭包中的密度、可定义Henselian估值和强NIP有序域的联系。本文部分内容发表于[2-5]。作者:Lothar Sebastian Krapp E-mail: sebastian.krapp@uni-konstanz.de URL: https://d-nb.info/1202012558/34
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Algebraic and Model Theoretic Properties of O-minimal Exponential Fields
Abstract An exponential $\exp $ on an ordered field $(K,+,-,\cdot ,0,1,<)$ is an order-preserving isomorphism from the ordered additive group $(K,+,0,<)$ to the ordered multiplicative group of positive elements $(K^{>0},\cdot ,1,<)$ . The structure $(K,+,-,\cdot ,0,1,<,\exp )$ is then called an ordered exponential field (cf. [6]). A linearly ordered structure $(M,<,\ldots )$ is called o-minimal if every parametrically definable subset of M is a finite union of points and open intervals of M. The main subject of this thesis is the algebraic and model theoretic examination of o-minimal exponential fields $(K,+,-,\cdot ,0,1,<,\exp )$ whose exponential satisfies the differential equation $\exp ' = \exp $ with initial condition $\exp (0) = 1$ . This study is mainly motivated by the Transfer Conjecture, which states as follows: Any o-minimal exponential field $(K,+,-,\cdot ,0,1,<,\exp )$ whose exponential satisfies the differential equation $\exp ' = \exp $ with initial condition $\exp (0)=1$ is elementarily equivalent to $\mathbb {R}_{\exp }$ . Here, $\mathbb {R}_{\exp }$ denotes the real exponential field $(\mathbb {R},+,-,\cdot ,0,1,<,\exp )$ , where $\exp $ denotes the standard exponential $x \mapsto \mathrm {e}^x$ on $\mathbb {R}$ . Moreover, elementary equivalence means that any first-order sentence in the language $\mathcal {L}_{\exp } = \{+,-,\cdot ,0,1, <,\exp \}$ holds for $(K,+,-,\cdot ,0,1,<,\exp )$ if and only if it holds for $\mathbb {R}_{\exp }$ . The Transfer Conjecture, and thus the study of o-minimal exponential fields, is of particular interest in the light of the decidability of $\mathbb {R}_{\exp }$ . To the date, it is not known if $\mathbb {R}_{\exp }$ is decidable, i.e., whether there exists a procedure determining for a given first-order $\mathcal {L}_{\exp }$ -sentence whether it is true or false in $\mathbb {R}_{\exp }$ . However, under the assumption of Schanuel’s Conjecture—a famous open conjecture from Transcendental Number Theory—a decision procedure for $\mathbb {R}_{\exp }$ exists (cf. [7]). Also a positive answer to the Transfer Conjecture would result in the decidability of $\mathbb {R}_{\exp }$ (cf. [1]). Thus, we study o-minimal exponential fields with regard to the Transfer Conjecture, Schanuel’s Conjecture, and the decidability question of $\mathbb {R}_{\exp }$ . Overall, we shed light on the valuation theoretic invariants of o-minimal exponential fields—the residue field and the value group—with additional induced structure. Moreover, we explore elementary substructures and extensions of o-minimal exponential fields to the maximal ends—the smallest elementary substructures being prime models and the maximal elementary extensions being contained in the surreal numbers. Further, we draw connections to models of Peano Arithmetic, integer parts, density in real closure, definable Henselian valuations, and strongly NIP ordered fields. Parts of this thesis were published in [2–5]. Abstract prepared by Lothar Sebastian Krapp E-mail: sebastian.krapp@uni-konstanz.de URL: https://d-nb.info/1202012558/34
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POUR-EL’S LANDSCAPE CATEGORICAL QUANTIFICATION POINCARÉ-WEYL’S PREDICATIVITY: GOING BEYOND A TOPOLOGICAL APPROACH TO UNDEFINABILITY IN ALGEBRAIC EXTENSIONS OF John MacFarlane, Philosophical Logic: A Contemporary Introduction, Routledge Contemporary Introductions to Philosophy, Routledge, New York, and London, 2021, xx + 238 pp.
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