The Kaufmann--Clote question on end extensions of models of arithmetic and the weak regularity principle

arXiv - MATH - Logic Pub Date : 2024-09-05 DOI:arxiv-2409.03527
Mengzhou Sun
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Abstract

We investigate the end extendibility of models of arithmetic with restricted elementarity. By utilizing the restricted ultrapower construction in the second-order context, for each $n\in\mathbb{N}$ and any countable model of $\mathrm{B}\Sigma_{n+2}$, we construct a proper $\Sigma_{n+2}$-elementary end extension satisfying $\mathrm{B}\Sigma_{n+1}$, which answers a question by Clote positively. We also give a characterization of countable models of $\mathrm{I}\Sigma_{n+2}$ in terms of their end extendibility similar to the case of $\mathrm{B}\Sigma_{n+2}$. Along the proof, we will introduce a new type of regularity principles in arithmetic called the weak regularity principle, which serves as a bridge between the model's end extendibility and the amount of induction or collection it satisfies.
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关于算术模型末端扩展的考夫曼--克洛特问题和弱正则原则
我们研究了具有限制元素性的算术模型的末端可扩展性。通过在这些二阶上下文中利用受限超幂构造,对于每个 $n\in\mathbb{N}$ 和 $\mathrm{B}\Sigma_{n+2}$ 的任何可数模型,我们构造了一个满足 $\mathrm{B}\Sigma_{n+1}$ 的适当 $\Sigma_{n+2}$ 元末扩展,这正面回答了克洛特提出的一个问题。我们还给出了$\mathrm{I}\Sigma_{n+2}$的可数模型的特征,即它们的末端可扩展性类似于$\mathrm{B}\Sigma_{n+2}$的情况。在证明的过程中,我们将引入算术中一种新的正则原则,称为弱正则原则,它是模型的末端可扩展性与它所满足的归纳或集合量之间的桥梁。
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arXiv - MATH - Logic
arXiv - MATH - Logic
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