在局部抽象初等类的小红心中建立模型

MARCOS MAZARI-ARMIDA, WENTAO YANG
{"title":"在局部抽象初等类的小红心中建立模型","authors":"MARCOS MAZARI-ARMIDA, WENTAO YANG","doi":"10.1017/jsl.2024.32","DOIUrl":null,"url":null,"abstract":"<p>There are many results in the literature where superstablity-like independence notions, without any categoricity assumptions, have been used to show the existence of larger models. In this paper we show that <span>stability</span> is enough to construct larger models for small cardinals assuming a mild locality condition for Galois types.<span>Theorem 0.1.</span><p>Suppose <span><span><img data-mimesubtype=\"png\" data-type=\"\" src=\"https://static.cambridge.org/binary/version/id/urn:cambridge.org:id:binary:20240904081418552-0865:S002248122400032X:S002248122400032X_inline1.png\"><span data-mathjax-type=\"texmath\"><span>$\\lambda &lt;2^{\\aleph _0}$</span></span></img></span></span>. Let <span><span><img data-mimesubtype=\"png\" data-type=\"\" src=\"https://static.cambridge.org/binary/version/id/urn:cambridge.org:id:binary:20240904081418552-0865:S002248122400032X:S002248122400032X_inline2.png\"><span data-mathjax-type=\"texmath\"><span>${\\mathbf {K}}$</span></span></img></span></span> be an abstract elementary class with <span><span><img data-mimesubtype=\"png\" data-type=\"\" src=\"https://static.cambridge.org/binary/version/id/urn:cambridge.org:id:binary:20240904081418552-0865:S002248122400032X:S002248122400032X_inline3.png\"><span data-mathjax-type=\"texmath\"><span>$\\lambda \\geq {\\operatorname {LS}}({\\mathbf {K}})$</span></span></img></span></span>. Assume <span><span><img data-mimesubtype=\"png\" data-type=\"\" src=\"https://static.cambridge.org/binary/version/id/urn:cambridge.org:id:binary:20240904081418552-0865:S002248122400032X:S002248122400032X_inline4.png\"><span data-mathjax-type=\"texmath\"><span>${\\mathbf {K}}$</span></span></img></span></span> has amalgamation in <span><span><img data-mimesubtype=\"png\" data-type=\"\" src=\"https://static.cambridge.org/binary/version/id/urn:cambridge.org:id:binary:20240904081418552-0865:S002248122400032X:S002248122400032X_inline5.png\"><span data-mathjax-type=\"texmath\"><span>$\\lambda $</span></span></img></span></span>, no maximal model in <span><span><img data-mimesubtype=\"png\" data-type=\"\" src=\"https://static.cambridge.org/binary/version/id/urn:cambridge.org:id:binary:20240904081418552-0865:S002248122400032X:S002248122400032X_inline6.png\"><span data-mathjax-type=\"texmath\"><span>$\\lambda $</span></span></img></span></span>, and is stable in <span><span><img data-mimesubtype=\"png\" data-type=\"\" src=\"https://static.cambridge.org/binary/version/id/urn:cambridge.org:id:binary:20240904081418552-0865:S002248122400032X:S002248122400032X_inline7.png\"><span data-mathjax-type=\"texmath\"><span>$\\lambda $</span></span></img></span></span>. If <span><span><img data-mimesubtype=\"png\" data-type=\"\" src=\"https://static.cambridge.org/binary/version/id/urn:cambridge.org:id:binary:20240904081418552-0865:S002248122400032X:S002248122400032X_inline8.png\"><span data-mathjax-type=\"texmath\"><span>${\\mathbf {K}}$</span></span></img></span></span> is <span><span><img data-mimesubtype=\"png\" data-type=\"\" src=\"https://static.cambridge.org/binary/version/id/urn:cambridge.org:id:binary:20240904081418552-0865:S002248122400032X:S002248122400032X_inline9.png\"><span data-mathjax-type=\"texmath\"><span>$(&lt;\\lambda ^+, \\lambda )$</span></span></img></span></span>-local, then <span><span><img data-mimesubtype=\"png\" data-type=\"\" src=\"https://static.cambridge.org/binary/version/id/urn:cambridge.org:id:binary:20240904081418552-0865:S002248122400032X:S002248122400032X_inline10.png\"><span data-mathjax-type=\"texmath\"><span>${\\mathbf {K}}$</span></span></img></span></span> has a model of cardinality <span><span><img data-mimesubtype=\"png\" data-type=\"\" src=\"https://static.cambridge.org/binary/version/id/urn:cambridge.org:id:binary:20240904081418552-0865:S002248122400032X:S002248122400032X_inline11.png\"><span data-mathjax-type=\"texmath\"><span>$\\lambda ^{++}$</span></span></img></span></span>.</p></p><p>The set theoretic assumption that <span><span><img data-mimesubtype=\"png\" data-type=\"\" src=\"https://static.cambridge.org/binary/version/id/urn:cambridge.org:id:binary:20240904081418552-0865:S002248122400032X:S002248122400032X_inline12.png\"><span data-mathjax-type=\"texmath\"><span>$\\lambda &lt;2^{\\aleph _0}$</span></span></img></span></span> and model theoretic assumption of stability in <span><span><img data-mimesubtype=\"png\" data-type=\"\" src=\"https://static.cambridge.org/binary/version/id/urn:cambridge.org:id:binary:20240904081418552-0865:S002248122400032X:S002248122400032X_inline13.png\"><span data-mathjax-type=\"texmath\"><span>$\\lambda $</span></span></img></span></span> can be weakened to the model theoretic assumptions that <span><span><img data-mimesubtype=\"png\" data-type=\"\" src=\"https://static.cambridge.org/binary/version/id/urn:cambridge.org:id:binary:20240904081418552-0865:S002248122400032X:S002248122400032X_inline14.png\"><span data-mathjax-type=\"texmath\"><span>$|{\\mathbf {S}}^{na}(M)|&lt; 2^{\\aleph _0}$</span></span></img></span></span> for every <span><span><img data-mimesubtype=\"png\" data-type=\"\" src=\"https://static.cambridge.org/binary/version/id/urn:cambridge.org:id:binary:20240904081418552-0865:S002248122400032X:S002248122400032X_inline15.png\"><span data-mathjax-type=\"texmath\"><span>$M \\in {\\mathbf {K}}_\\lambda $</span></span></img></span></span> and stability for <span><span><img data-mimesubtype=\"png\" data-type=\"\" src=\"https://static.cambridge.org/binary/version/id/urn:cambridge.org:id:binary:20240904081418552-0865:S002248122400032X:S002248122400032X_inline16.png\"><span data-mathjax-type=\"texmath\"><span>$\\lambda $</span></span></img></span></span>-algebraic types in <span><span><img data-mimesubtype=\"png\" data-type=\"\" src=\"https://static.cambridge.org/binary/version/id/urn:cambridge.org:id:binary:20240904081418552-0865:S002248122400032X:S002248122400032X_inline17.png\"/><span data-mathjax-type=\"texmath\"><span>$\\lambda $</span></span></span></span>. This is a significant improvement of Theorem 0.1, as the result holds on some unstable abstract elementary classes.</p>","PeriodicalId":501300,"journal":{"name":"The Journal of Symbolic Logic","volume":"34 1","pages":""},"PeriodicalIF":0.0000,"publicationDate":"2024-04-29","publicationTypes":"Journal Article","fieldsOfStudy":null,"isOpenAccess":false,"openAccessPdf":"","citationCount":"0","resultStr":"{\"title\":\"BUILDING MODELS IN SMALL CARDINALS IN LOCAL ABSTRACT ELEMENTARY CLASSES\",\"authors\":\"MARCOS MAZARI-ARMIDA, WENTAO YANG\",\"doi\":\"10.1017/jsl.2024.32\",\"DOIUrl\":null,\"url\":null,\"abstract\":\"<p>There are many results in the literature where superstablity-like independence notions, without any categoricity assumptions, have been used to show the existence of larger models. In this paper we show that <span>stability</span> is enough to construct larger models for small cardinals assuming a mild locality condition for Galois types.<span>Theorem 0.1.</span><p>Suppose <span><span><img data-mimesubtype=\\\"png\\\" data-type=\\\"\\\" src=\\\"https://static.cambridge.org/binary/version/id/urn:cambridge.org:id:binary:20240904081418552-0865:S002248122400032X:S002248122400032X_inline1.png\\\"><span data-mathjax-type=\\\"texmath\\\"><span>$\\\\lambda &lt;2^{\\\\aleph _0}$</span></span></img></span></span>. Let <span><span><img data-mimesubtype=\\\"png\\\" data-type=\\\"\\\" src=\\\"https://static.cambridge.org/binary/version/id/urn:cambridge.org:id:binary:20240904081418552-0865:S002248122400032X:S002248122400032X_inline2.png\\\"><span data-mathjax-type=\\\"texmath\\\"><span>${\\\\mathbf {K}}$</span></span></img></span></span> be an abstract elementary class with <span><span><img data-mimesubtype=\\\"png\\\" data-type=\\\"\\\" src=\\\"https://static.cambridge.org/binary/version/id/urn:cambridge.org:id:binary:20240904081418552-0865:S002248122400032X:S002248122400032X_inline3.png\\\"><span data-mathjax-type=\\\"texmath\\\"><span>$\\\\lambda \\\\geq {\\\\operatorname {LS}}({\\\\mathbf {K}})$</span></span></img></span></span>. Assume <span><span><img data-mimesubtype=\\\"png\\\" data-type=\\\"\\\" src=\\\"https://static.cambridge.org/binary/version/id/urn:cambridge.org:id:binary:20240904081418552-0865:S002248122400032X:S002248122400032X_inline4.png\\\"><span data-mathjax-type=\\\"texmath\\\"><span>${\\\\mathbf {K}}$</span></span></img></span></span> has amalgamation in <span><span><img data-mimesubtype=\\\"png\\\" data-type=\\\"\\\" src=\\\"https://static.cambridge.org/binary/version/id/urn:cambridge.org:id:binary:20240904081418552-0865:S002248122400032X:S002248122400032X_inline5.png\\\"><span data-mathjax-type=\\\"texmath\\\"><span>$\\\\lambda $</span></span></img></span></span>, no maximal model in <span><span><img data-mimesubtype=\\\"png\\\" data-type=\\\"\\\" src=\\\"https://static.cambridge.org/binary/version/id/urn:cambridge.org:id:binary:20240904081418552-0865:S002248122400032X:S002248122400032X_inline6.png\\\"><span data-mathjax-type=\\\"texmath\\\"><span>$\\\\lambda $</span></span></img></span></span>, and is stable in <span><span><img data-mimesubtype=\\\"png\\\" data-type=\\\"\\\" src=\\\"https://static.cambridge.org/binary/version/id/urn:cambridge.org:id:binary:20240904081418552-0865:S002248122400032X:S002248122400032X_inline7.png\\\"><span data-mathjax-type=\\\"texmath\\\"><span>$\\\\lambda $</span></span></img></span></span>. If <span><span><img data-mimesubtype=\\\"png\\\" data-type=\\\"\\\" src=\\\"https://static.cambridge.org/binary/version/id/urn:cambridge.org:id:binary:20240904081418552-0865:S002248122400032X:S002248122400032X_inline8.png\\\"><span data-mathjax-type=\\\"texmath\\\"><span>${\\\\mathbf {K}}$</span></span></img></span></span> is <span><span><img data-mimesubtype=\\\"png\\\" data-type=\\\"\\\" src=\\\"https://static.cambridge.org/binary/version/id/urn:cambridge.org:id:binary:20240904081418552-0865:S002248122400032X:S002248122400032X_inline9.png\\\"><span data-mathjax-type=\\\"texmath\\\"><span>$(&lt;\\\\lambda ^+, \\\\lambda )$</span></span></img></span></span>-local, then <span><span><img data-mimesubtype=\\\"png\\\" data-type=\\\"\\\" src=\\\"https://static.cambridge.org/binary/version/id/urn:cambridge.org:id:binary:20240904081418552-0865:S002248122400032X:S002248122400032X_inline10.png\\\"><span data-mathjax-type=\\\"texmath\\\"><span>${\\\\mathbf {K}}$</span></span></img></span></span> has a model of cardinality <span><span><img data-mimesubtype=\\\"png\\\" data-type=\\\"\\\" src=\\\"https://static.cambridge.org/binary/version/id/urn:cambridge.org:id:binary:20240904081418552-0865:S002248122400032X:S002248122400032X_inline11.png\\\"><span data-mathjax-type=\\\"texmath\\\"><span>$\\\\lambda ^{++}$</span></span></img></span></span>.</p></p><p>The set theoretic assumption that <span><span><img data-mimesubtype=\\\"png\\\" data-type=\\\"\\\" src=\\\"https://static.cambridge.org/binary/version/id/urn:cambridge.org:id:binary:20240904081418552-0865:S002248122400032X:S002248122400032X_inline12.png\\\"><span data-mathjax-type=\\\"texmath\\\"><span>$\\\\lambda &lt;2^{\\\\aleph _0}$</span></span></img></span></span> and model theoretic assumption of stability in <span><span><img data-mimesubtype=\\\"png\\\" data-type=\\\"\\\" src=\\\"https://static.cambridge.org/binary/version/id/urn:cambridge.org:id:binary:20240904081418552-0865:S002248122400032X:S002248122400032X_inline13.png\\\"><span data-mathjax-type=\\\"texmath\\\"><span>$\\\\lambda $</span></span></img></span></span> can be weakened to the model theoretic assumptions that <span><span><img data-mimesubtype=\\\"png\\\" data-type=\\\"\\\" src=\\\"https://static.cambridge.org/binary/version/id/urn:cambridge.org:id:binary:20240904081418552-0865:S002248122400032X:S002248122400032X_inline14.png\\\"><span data-mathjax-type=\\\"texmath\\\"><span>$|{\\\\mathbf {S}}^{na}(M)|&lt; 2^{\\\\aleph _0}$</span></span></img></span></span> for every <span><span><img data-mimesubtype=\\\"png\\\" data-type=\\\"\\\" src=\\\"https://static.cambridge.org/binary/version/id/urn:cambridge.org:id:binary:20240904081418552-0865:S002248122400032X:S002248122400032X_inline15.png\\\"><span data-mathjax-type=\\\"texmath\\\"><span>$M \\\\in {\\\\mathbf {K}}_\\\\lambda $</span></span></img></span></span> and stability for <span><span><img data-mimesubtype=\\\"png\\\" data-type=\\\"\\\" src=\\\"https://static.cambridge.org/binary/version/id/urn:cambridge.org:id:binary:20240904081418552-0865:S002248122400032X:S002248122400032X_inline16.png\\\"><span data-mathjax-type=\\\"texmath\\\"><span>$\\\\lambda $</span></span></img></span></span>-algebraic types in <span><span><img data-mimesubtype=\\\"png\\\" data-type=\\\"\\\" src=\\\"https://static.cambridge.org/binary/version/id/urn:cambridge.org:id:binary:20240904081418552-0865:S002248122400032X:S002248122400032X_inline17.png\\\"/><span data-mathjax-type=\\\"texmath\\\"><span>$\\\\lambda $</span></span></span></span>. This is a significant improvement of Theorem 0.1, as the result holds on some unstable abstract elementary classes.</p>\",\"PeriodicalId\":501300,\"journal\":{\"name\":\"The Journal of Symbolic Logic\",\"volume\":\"34 1\",\"pages\":\"\"},\"PeriodicalIF\":0.0000,\"publicationDate\":\"2024-04-29\",\"publicationTypes\":\"Journal Article\",\"fieldsOfStudy\":null,\"isOpenAccess\":false,\"openAccessPdf\":\"\",\"citationCount\":\"0\",\"resultStr\":null,\"platform\":\"Semanticscholar\",\"paperid\":null,\"PeriodicalName\":\"The Journal of Symbolic Logic\",\"FirstCategoryId\":\"1085\",\"ListUrlMain\":\"https://doi.org/10.1017/jsl.2024.32\",\"RegionNum\":0,\"RegionCategory\":null,\"ArticlePicture\":[],\"TitleCN\":null,\"AbstractTextCN\":null,\"PMCID\":null,\"EPubDate\":\"\",\"PubModel\":\"\",\"JCR\":\"\",\"JCRName\":\"\",\"Score\":null,\"Total\":0}","platform":"Semanticscholar","paperid":null,"PeriodicalName":"The Journal of Symbolic Logic","FirstCategoryId":"1085","ListUrlMain":"https://doi.org/10.1017/jsl.2024.32","RegionNum":0,"RegionCategory":null,"ArticlePicture":[],"TitleCN":null,"AbstractTextCN":null,"PMCID":null,"EPubDate":"","PubModel":"","JCR":"","JCRName":"","Score":null,"Total":0}
引用次数: 0

摘要

在文献中有许多结果,在这些结果中,类似超稳定性的独立性概念,在没有任何分类性假设的情况下,被用来证明更大模型的存在。在本文中,我们证明,假设伽罗瓦类型有一个温和的局部性条件,稳定性足以为小红心构建更大的模型。让${/mathbf {K}}$ 是一个抽象基本类,有$\lambda \geq {operatorname {LS}}({\mathbf {K}})$。如果 ${mathbf {K}}$ 是 $(<\lambda ^+, \lambda )$-local 的,那么 ${mathbf {K}}$ 有一个 cardinality $\lambda ^{++}$ 的模型。集合论中关于 $\lambda <2^{\aleph _0}$ 的假设和模型论中关于 $\lambda $ 稳定性的假设可以弱化为模型论中关于 $|{\mathbf {S}^{na}(M)|<;2^{aleph _0}$ 以及 $\lambda $ 中 $\lambda $ 代数类型的稳定性。这是对定理 0.1 的重大改进,因为该结果在一些不稳定的抽象基本类上成立。
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BUILDING MODELS IN SMALL CARDINALS IN LOCAL ABSTRACT ELEMENTARY CLASSES

There are many results in the literature where superstablity-like independence notions, without any categoricity assumptions, have been used to show the existence of larger models. In this paper we show that stability is enough to construct larger models for small cardinals assuming a mild locality condition for Galois types.Theorem 0.1.

Suppose $\lambda <2^{\aleph _0}$. Let ${\mathbf {K}}$ be an abstract elementary class with $\lambda \geq {\operatorname {LS}}({\mathbf {K}})$. Assume ${\mathbf {K}}$ has amalgamation in $\lambda $, no maximal model in $\lambda $, and is stable in $\lambda $. If ${\mathbf {K}}$ is $(<\lambda ^+, \lambda )$-local, then ${\mathbf {K}}$ has a model of cardinality $\lambda ^{++}$.

The set theoretic assumption that $\lambda <2^{\aleph _0}$ and model theoretic assumption of stability in $\lambda $ can be weakened to the model theoretic assumptions that $|{\mathbf {S}}^{na}(M)|< 2^{\aleph _0}$ for every $M \in {\mathbf {K}}_\lambda $ and stability for $\lambda $-algebraic types in $\lambda $. This is a significant improvement of Theorem 0.1, as the result holds on some unstable abstract elementary classes.

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