考夫曼模型的可破坏性和公理化性

IF 0.3 4区 数学 Q1 Arts and Humanities Archive for Mathematical Logic Pub Date : 2022-03-26 DOI:10.1007/s00153-022-00826-6
Corey Bacal Switzer
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引用次数: 0

摘要

Kaufmann模型是一个类似\(\omega _1\)的,递归饱和的,相对无类的\({{\mathsf {P}}}{{\mathsf {A}}}\)(或\({{\mathsf {Z}}}{{\mathsf {F}}} \))模型。这些模型由Kaufmann根据组合原理\(\diamondsuit _{\omega _1}\)构建,Shelah通过绝对性论证在\(\mathsf {ZFC}\)中证明了它们的存在。Kaufmann模型是类似于Aronszajn树的\(\omega _1\)不紧性的重要证明。在本文中,我们着眼于与此相关的一些集合论问题,这些问题似乎是由naïve问题引起的,即这样的模型是否可以通过强制而不崩溃\(\omega _1\)而被“杀死”。我们证明了这个问题的答案是独立于\(\mathsf {ZFC}\)的,并且与关于Aronszajn树的类似问题密切相关。作为这些方法的一个应用,我们还证明了在逻辑\(L_{\omega _1, \omega } (Q)\)中考夫曼模型是否可以公理化与\(\mathsf {ZFC}\)无关,其中Q是量词“存在不可数的许多”。
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Destructibility and axiomatizability of Kaufmann models

A Kaufmann model is an \(\omega _1\)-like, recursively saturated, rather classless model of \({{\mathsf {P}}}{{\mathsf {A}}}\) (or \({{\mathsf {Z}}}{{\mathsf {F}}} \)). Such models were constructed by Kaufmann under the combinatorial principle \(\diamondsuit _{\omega _1}\) and Shelah showed they exist in \(\mathsf {ZFC}\) by an absoluteness argument. Kaufmann models are an important witness to the incompactness of \(\omega _1\) similar to Aronszajn trees. In this paper we look at some set theoretic issues related to this motivated by the seemingly naïve question of whether such a model can be “killed” by forcing without collapsing \(\omega _1\). We show that the answer to this question is independent of \(\mathsf {ZFC}\) and closely related to similar questions about Aronszajn trees. As an application of these methods we also show that it is independent of \(\mathsf {ZFC}\) whether or not Kaufmann models can be axiomatized in the logic \(L_{\omega _1, \omega } (Q)\) where Q is the quantifier “there exists uncountably many”.

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来源期刊
Archive for Mathematical Logic
Archive for Mathematical Logic MATHEMATICS-LOGIC
CiteScore
0.80
自引率
0.00%
发文量
45
审稿时长
6-12 weeks
期刊介绍: The journal publishes research papers and occasionally surveys or expositions on mathematical logic. Contributions are also welcomed from other related areas, such as theoretical computer science or philosophy, as long as the methods of mathematical logic play a significant role. The journal therefore addresses logicians and mathematicians, computer scientists, and philosophers who are interested in the applications of mathematical logic in their own field, as well as its interactions with other areas of research.
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