A microscopic approach to Souslin-tree constructions, Part I

Ari Meir Brodsky; Assaf Rinot

doi:10.1016/j.apal.2017.05.003

A microscopic approach to Souslin-tree constructions, Part I

Ari Meir Brodsky, Assaf Rinot

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

21 Scopus citations

Abstract

We propose a parameterized proxy principle from which κ-Souslin trees with various additional features can be constructed, regardless of the identity of κ. We then introduce the microscopic approach, which is a simple method for deriving trees from instances of the proxy principle. As a demonstration, we give a construction of a uniformly coherent κ-Souslin tree that applies also for κ inaccessible. We then carry out a systematic study of the consistency of instances of the proxy principle, distinguished by the vector of parameters serving as its input. Among other things, it will be shown that all known ⋄-based constructions of κ-Souslin trees may be redirected through this new proxy principle.

Original language	English
Pages (from-to)	1949-2007
Number of pages	59
Journal	Annals of Pure and Applied Logic
Volume	168
Issue number	11
DOIs	https://doi.org/10.1016/j.apal.2017.05.003
State	Published - 1 Nov 2017
Externally published	Yes

Keywords

Coherence relation
Microscopic approach
Parameterized proxy principle
Regressive tree
Square principle
Uniformly coherent Souslin tree

ASJC Scopus subject areas

Logic

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10.1016/j.apal.2017.05.003

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abstract = "We propose a parameterized proxy principle from which κ-Souslin trees with various additional features can be constructed, regardless of the identity of κ. We then introduce the microscopic approach, which is a simple method for deriving trees from instances of the proxy principle. As a demonstration, we give a construction of a uniformly coherent κ-Souslin tree that applies also for κ inaccessible. We then carry out a systematic study of the consistency of instances of the proxy principle, distinguished by the vector of parameters serving as its input. Among other things, it will be shown that all known ⋄-based constructions of κ-Souslin trees may be redirected through this new proxy principle.",

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AB - We propose a parameterized proxy principle from which κ-Souslin trees with various additional features can be constructed, regardless of the identity of κ. We then introduce the microscopic approach, which is a simple method for deriving trees from instances of the proxy principle. As a demonstration, we give a construction of a uniformly coherent κ-Souslin tree that applies also for κ inaccessible. We then carry out a systematic study of the consistency of instances of the proxy principle, distinguished by the vector of parameters serving as its input. Among other things, it will be shown that all known ⋄-based constructions of κ-Souslin trees may be redirected through this new proxy principle.

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KW - Microscopic approach

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KW - Regressive tree

KW - Square principle

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A microscopic approach to Souslin-tree constructions, Part I

Abstract

Keywords

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