Generalized nonsplitting in the recursively enumerable degrees

Journal of Symbolic Logic 62 (2):397-437 (1997)
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Abstract

We investigate the algebraic structure of the upper semi-lattice formed by the recursively enumerable Turing degrees. The following strong generalization of Lachlan's Nonsplitting Theorem is proved: Given n ≥ 1, there exists an r.e. degree d such that the interval $\lbrack\mathbf{d, 0'}\rbrack \subset\mathbf{R}$ admits an embedding of the n-atom Boolean algebra B n preserving (least and) greatest element, but also such that there is no (n + 1)-tuple of pairwise incomparable r.e. degrees above d which pairwise join to 0' (and hence, the interval $\lbrack\mathbf{d, 0'}\rbrack \subset\mathbf{R}$ does not admit a greatest-element-preserving embedding of any lattice L which has n + 1 co-atoms, including B n + 1 ). This theorem is the dual of a theorem of Ambos-Spies and Soare, and yields an alternative proof of their result that the theory of R has infinitely many one-types

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10.2307/2275539

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Citations of this work

On definable filters in computably enumerable degrees.Wei Wang & Decheng Ding - 2007 - Annals of Pure and Applied Logic 147 (1):71-83.

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References found in this work

The density of infima in the recursively enumerable degrees.Theodore A. Slaman - 1991 - Annals of Pure and Applied Logic 52 (1-2):155-179.
Sublattices of the Recursively Enumerable Degrees.S. K. Thomason - 1971 - Mathematical Logic Quarterly 17 (1):273-280.

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