On Sigma(1)(1)-completeness of quasi-orders on kappa(kappa)

Tapani Hyttinen; Vadim Kulikov; Miguel Moreno

doi:10.4064/fm679-1-2020

On Sigma(1)(1)-completeness of quasi-orders on kappa(kappa)

Tapani Hyttinen, Vadim Kulikov, Miguel Moreno

Department of Mathematics and Statistics

Research output: Contribution to journal › Article › Scientific › peer-review

Abstract

We prove under V = L that the inclusion modulo the non-stationary ideal is a Sigma(1)(1)-complete quasi-order in the generalized Borel-reducibility hierarchy (kappa > omega). This improvement to known results in L has many new consequences concerning the Sigma(1)(1)-completeness of quasi-orders and equivalence relations such as the embeddability of dense linear orders as well as the equivalence modulo various versions of the non-stationary ideal. This serves as a partial or complete answer to several open problems stated in the literature. Additionally the theorem is applied to prove a dichotomy in L: If the isomorphism of a countable first-order theory (not necessarily complete) is not Delta(1)(1), then it is Sigma(1)(1)-complete.

We also study the case V not equal L and prove Sigma(1)(1)-completeness results for weakly ineffable and weakly compact kappa.

Original language	English
Journal	Fundamenta Mathematicae
Volume	251
Issue number	3
Pages (from-to)	245-268
Number of pages	24
ISSN	0016-2736
DOIs	https://doi.org/10.4064/fm679-1-2020
Publication status	Published - 13 May 2020
MoE publication type	A1 Journal article-refereed

Fields of Science

111 Mathematics
generalized Baire space
generalized descriptive set theory
reducibility
quasi-orders
embeddability
Sigma(1)(1)-completeness
EQUIVALENT NONISOMORPHIC MODELS
BOREL-REDUCIBILITY

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Cite this

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title = "On Sigma(1)(1)-completeness of quasi-orders on kappa(kappa)",

abstract = "We prove under V = L that the inclusion modulo the non-stationary ideal is a Sigma(1)(1)-complete quasi-order in the generalized Borel-reducibility hierarchy (kappa > omega). This improvement to known results in L has many new consequences concerning the Sigma(1)(1)-completeness of quasi-orders and equivalence relations such as the embeddability of dense linear orders as well as the equivalence modulo various versions of the non-stationary ideal. This serves as a partial or complete answer to several open problems stated in the literature. Additionally the theorem is applied to prove a dichotomy in L: If the isomorphism of a countable first-order theory (not necessarily complete) is not Delta(1)(1), then it is Sigma(1)(1)-complete.We also study the case V not equal L and prove Sigma(1)(1)-completeness results for weakly ineffable and weakly compact kappa.",

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T1 - On Sigma(1)(1)-completeness of quasi-orders on kappa(kappa)

AU - Hyttinen, Tapani

AU - Kulikov, Vadim

AU - Moreno, Miguel

PY - 2020/5/13

Y1 - 2020/5/13

N2 - We prove under V = L that the inclusion modulo the non-stationary ideal is a Sigma(1)(1)-complete quasi-order in the generalized Borel-reducibility hierarchy (kappa > omega). This improvement to known results in L has many new consequences concerning the Sigma(1)(1)-completeness of quasi-orders and equivalence relations such as the embeddability of dense linear orders as well as the equivalence modulo various versions of the non-stationary ideal. This serves as a partial or complete answer to several open problems stated in the literature. Additionally the theorem is applied to prove a dichotomy in L: If the isomorphism of a countable first-order theory (not necessarily complete) is not Delta(1)(1), then it is Sigma(1)(1)-complete.We also study the case V not equal L and prove Sigma(1)(1)-completeness results for weakly ineffable and weakly compact kappa.

AB - We prove under V = L that the inclusion modulo the non-stationary ideal is a Sigma(1)(1)-complete quasi-order in the generalized Borel-reducibility hierarchy (kappa > omega). This improvement to known results in L has many new consequences concerning the Sigma(1)(1)-completeness of quasi-orders and equivalence relations such as the embeddability of dense linear orders as well as the equivalence modulo various versions of the non-stationary ideal. This serves as a partial or complete answer to several open problems stated in the literature. Additionally the theorem is applied to prove a dichotomy in L: If the isomorphism of a countable first-order theory (not necessarily complete) is not Delta(1)(1), then it is Sigma(1)(1)-complete.We also study the case V not equal L and prove Sigma(1)(1)-completeness results for weakly ineffable and weakly compact kappa.

KW - 111 Mathematics

KW - generalized Baire space

KW - generalized descriptive set theory

KW - reducibility

KW - quasi-orders

KW - embeddability

KW - Sigma(1)(1)-completeness

KW - EQUIVALENT NONISOMORPHIC MODELS

KW - BOREL-REDUCIBILITY

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