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On the Cauchy completeness of the constructive Cauchy reals

Robert S. Lubarsky

Mathematical Logic Quarterly 53 (4‐5):396-414 (2007)

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Real numbers and other completions.Fred Richman - 2008 - Mathematical Logic Quarterly 54 (1):98-108.details A notion of completeness and completion suitable for use in the absence of countable choice is developed. This encompasses the construction of the real numbers as well as the completion of an arbitrary metric space. The real numbers are characterized as a complete Archimedean Heyting field, a terminal object in the category of Archimedean Heyting fields. Download Export citation Bookmark 1 citation
Unifying sets and programs via dependent types.Wojciech Moczydłowski - 2012 - Annals of Pure and Applied Logic 163 (7):789-808.details Download Export citation Bookmark
On the constructive Dedekind reals.Robert S. Lubarsky & Michael Rathjen - 2008 - Logic and Analysis 1 (2):131-152.details In order to build the collection of Cauchy reals as a set in constructive set theory, the only power set-like principle needed is exponentiation. In contrast, the proof that the Dedekind reals form a set has seemed to require more than that. The main purpose here is to show that exponentiation alone does not suffice for the latter, by furnishing a Kripke model of constructive set theory, Constructive Zermelo–Fraenkel set theory with subset collection replaced by exponentiation, in which the Cauchy (...) Download Export citation Bookmark 11 citations

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