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  1. Recursively enumerable vector spaces.G. Metakides - 1977 - Annals of Mathematical Logic 11 (2):147.
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  • Degree theory on ℵω.C. T. Chong & Sy D. Friedman - 1983 - Annals of Pure and Applied Logic 24 (1):87-97.
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  • On the embedding of |alpha-recursive presentable lattices into the α-recursive degrees below 0'.Dong Ping Yang - 1984 - Journal of Symbolic Logic 49 (2):488 - 502.
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  • One hundred and two problems in mathematical logic.Harvey Friedman - 1975 - Journal of Symbolic Logic 40 (2):113-129.
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  • (1 other version)Nonstandard models in recursion theory and reverse mathematics.C. T. Chong, Wei Li & Yue Yang - 2014 - Bulletin of Symbolic Logic 20 (2):170-200.
    We give a survey of the study of nonstandard models in recursion theory and reverse mathematics. We discuss the key notions and techniques in effective computability in nonstandard models, and their applications to problems concerning combinatorial principles in subsystems of second order arithmetic. Particular attention is given to principles related to Ramsey’s Theorem for Pairs.
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  • An example related to Gregory’s Theorem.J. Johnson, J. F. Knight, V. Ocasio & S. VanDenDriessche - 2013 - Archive for Mathematical Logic 52 (3-4):419-434.
    In this paper, we give an example of a complete computable infinitary theory T with countable models ${\mathcal{M}}$ and ${\mathcal{N}}$ , where ${\mathcal{N}}$ is a proper computable infinitary extension of ${\mathcal{M}}$ and T has no uncountable model. In fact, ${\mathcal{M}}$ and ${\mathcal{N}}$ are (up to isomorphism) the only models of T. Moreover, for all computable ordinals α, the computable ${\Sigma_\alpha}$ part of T is hyperarithmetical. It follows from a theorem of Gregory (JSL 38:460–470, 1972; Not Am Math Soc 17:967–968, 1970) (...)
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  • Fragments of Kripke–Platek set theory and the metamathematics of $$\alpha $$ α -recursion theory.Sy-David Friedman, Wei Li & Tin Lok Wong - 2016 - Archive for Mathematical Logic 55 (7-8):899-924.
    The foundation scheme in set theory asserts that every nonempty class has an ∈\documentclass[12pt]{minimal} \usepackage{amsmath} \usepackage{wasysym} \usepackage{amsfonts} \usepackage{amssymb} \usepackage{amsbsy} \usepackage{mathrsfs} \usepackage{upgreek} \setlength{\oddsidemargin}{-69pt} \begin{document}$$\in $$\end{document}-minimal element. In this paper, we investigate the logical strength of the foundation principle in basic set theory and α\documentclass[12pt]{minimal} \usepackage{amsmath} \usepackage{wasysym} \usepackage{amsfonts} \usepackage{amssymb} \usepackage{amsbsy} \usepackage{mathrsfs} \usepackage{upgreek} \setlength{\oddsidemargin}{-69pt} \begin{document}$$\alpha $$\end{document}-recursion theory. We take KP set theory without foundation as the base theory. We show that KP-\documentclass[12pt]{minimal} \usepackage{amsmath} \usepackage{wasysym} \usepackage{amsfonts} \usepackage{amssymb} \usepackage{amsbsy} \usepackage{mathrsfs} \usepackage{upgreek} \setlength{\oddsidemargin}{-69pt} \begin{document}$$^-$$\end{document} + Π1\documentclass[12pt]{minimal} \usepackage{amsmath} (...)
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  • Adding a closed unbounded set.J. E. Baumgartner, L. A. Harrington & E. M. Kleinberg - 1976 - Journal of Symbolic Logic 41 (2):481-482.
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  • On suborderings of the alpha-recursively enumerable alpha-degrees.Manuel Lerman - 1972 - Annals of Mathematical Logic 4 (4):369.
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  • Minimal α-degrees.Richard A. Shore - 1972 - Annals of Mathematical Logic 4 (4):393-414.
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  • Friedberg Numbering in Fragments of Peano Arithmetic and α-Recursion Theory.Wei Li - 2013 - Journal of Symbolic Logic 78 (4):1135-1163.
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  • Post’s Problem for ordinal register machines: An explicit approach.Joel David Hamkins & Russell G. Miller - 2009 - Annals of Pure and Applied Logic 160 (3):302-309.
    We provide a positive solution for Post’s Problem for ordinal register machines, and also prove that these machines and ordinal Turing machines compute precisely the same partial functions on ordinals. To do so, we construct ordinal register machine programs which compute the necessary functions. In addition, we show that any set of ordinals solving Post’s Problem must be unbounded in the writable ordinals.
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  • Ordinal machines and admissible recursion theory.Peter Koepke & Benjamin Seyfferth - 2009 - Annals of Pure and Applied Logic 160 (3):310-318.
    We generalize standard Turing machines, which work in time ω on a tape of length ω, to α-machines with time α and tape length α, for α some limit ordinal. We show that this provides a simple machine model adequate for classical admissible recursion theory as developed by G. Sacks and his school. For α an admissible ordinal, the basic notions of α-recursive or α-recursively enumerable are equivalent to being computable or computably enumerable by an α-machine, respectively. We emphasize the (...)
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  • The Sacks density theorem and Σ2-bounding.Marcia J. Groszek, Michael E. Mytilinaios & Theodore A. Slaman - 1996 - Journal of Symbolic Logic 61 (2):450 - 467.
    The Sacks Density Theorem [7] states that the Turing degrees of the recursively enumerable sets are dense. We show that the Density Theorem holds in every model of P - + BΣ 2 . The proof has two components: a lemma that in any model of P - + BΣ 2 , if B is recursively enumerable and incomplete then IΣ 1 holds relative to B and an adaptation of Shore's [9] blocking technique in α-recursion theory to models of arithmetic.
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  • Recursively invariant beta-recursion theory.Wolfgand Maass - 1981 - Annals of Mathematical Logic 21 (1):27.
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  • Least upper bounds for minimal pairs of α-R.E. α-degrees.Manuel Lerman - 1974 - Journal of Symbolic Logic 39 (1):49-56.
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  • A lift of a theorem of Friedberg: A Banach-Mazur functional that coincides with no α-recursive functional on the class of α-recursive functions.Robert A. di Paola - 1981 - Journal of Symbolic Logic 46 (2):216-232.
    R. M. Friedberg demonstrated the existence of a recursive functional that agrees with no Banach-Mazur functional on the class of recursive functions. In this paper Friedberg's result is generalized to both α-recursive functionals and weak α-recursive functionals for all admissible ordinals α such that $\lambda , where α * is the Σ 1 -projectum of α and λ is the Σ 2 -cofinality of α. The theorem is also established for the metarecursive case, α = ω 1 , where α (...)
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  • On generalized computational complexity.Barry E. Jacobs - 1977 - Journal of Symbolic Logic 42 (1):47-58.
    If one regards an ordinal number as a generalization of a counting number, then it is natural to begin thinking in terms of computations on sets of ordinal numbers. This is precisely what Takeuti [22] had in mind when he initiated the study of recursive functions on ordinals. Kreisel and Sacks [9] too developed an ordinal recursion theory, called metarecursion theory, which specialized to the initial segment of the ordinals bounded by.The notion of admissibility was introduced by Kripke [11] and (...)
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  • Dominical categories: recursion theory without elements.Robert A. di Paola & Alex Heller - 1987 - Journal of Symbolic Logic 52 (3):594-635.
    Dominical categories are categories in which the notions of partial morphisms and their domains become explicit, with the latter being endomorphisms rather than subobjects of their sources. These categories form the basis for a novel abstract formulation of recursion theory, to which the present paper is devoted. The abstractness has of course its usual concomitant advantage of generality: it is interesting to see that many of the fundamental results of recursion theory remain valid in contexts far removed from their classic (...)
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  • Some minimal pairs of alpha-recursively enumerable degrees.Manuel Lerman - 1972 - Annals of Mathematical Logic 4 (4):415.
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  • Σn sets which are Δn-incomparable.Richard A. Shore - 1974 - Journal of Symbolic Logic 39 (2):295 - 304.
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  • Minimal Degrees in Generalized Recursion Theory.Michael Machtey - 1974 - Mathematical Logic Quarterly 20 (8-12):133-148.
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  • Two splitting theorems for beta-recursion theory.Steven Homer - 1980 - Annals of Mathematical Logic 18 (2):137.
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  • Inadmissibility, tame R.E. sets and the admissible collapse.Wolfgang Maass - 1978 - Annals of Mathematical Logic 13 (2):149-170.
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  • The recursively enumerable alpha-degrees are dense.Richard A. Shore - 1976 - Annals of Mathematical Logic 9 (1/2):123.
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  • Finite injury and Σ1-induction.Michael Mytilinaios - 1989 - Journal of Symbolic Logic 54 (1):38 - 49.
    Working in the language of first-order arithmetic we consider models of the base theory P - . Suppose M is a model of P - and let M satisfy induction for σ 1 -formulas. First it is shown that the Friedberg-Muchnik finite injury argument can be performed inside M, and then, using a blocking method for the requirements, we prove that the Sacks splitting construction can be done in M. So, the "amount" of induction needed to perform the known finite (...)
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  • Atomic models higher up.Jessica Millar & Gerald E. Sacks - 2008 - Annals of Pure and Applied Logic 155 (3):225-241.
    There exists a countable structure of Scott rank where and where the -theory of is not ω-categorical. The Scott rank of a model is the least ordinal β where the model is prime in its -theory. Most well-known models with unbounded atoms below also realize a non-principal -type; such a model that preserves the Σ1-admissibility of will have Scott rank . Makkai [M. Makkai, An example concerning Scott heights, J. Symbolic Logic 46 301–318. [4]] produces a hyperarithmetical model of Scott (...)
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  • In memoriam: Gerald E. Sacks, 1933–2019.Manuel Lerman & Theodore A. Slaman - 2022 - Bulletin of Symbolic Logic 28 (1):150-155.
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  • The role of true finiteness in the admissible recursively enumerable degrees.Noam Greenberg - 2005 - Bulletin of Symbolic Logic 11 (3):398-410.
    We show, however, that this is not always the case.
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  • (1 other version)Strong coding.Sy D. Friedman - 1987 - Annals of Pure and Applied Logic 35 (C):1-98.
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  • Global and local admissibility: II. Major subsets and automorphisms.C. T. Chong - 1983 - Annals of Pure and Applied Logic 24 (2):99-111.
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  • (1 other version)Almost local non-α-recursiveness.Chi T. Chong - 1974 - Journal of Symbolic Logic 39 (3):552-562.
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  • An α-finite injury method of the unbounded type.C. T. Chong - 1976 - Journal of Symbolic Logic 41 (1):1-17.
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