Every incomplete computably enumerable truth-table degree is branching

&
Archive for Mathematical Logic 40 (2):113-123 (2001)
  Copy   BIBTEX

Abstract

If r is a reducibility between sets of numbers, a natural question to ask about the structure ? r of the r-degrees containing computably enumerable sets is whether every element not equal to the greatest one is branching (i.e., the meet of two elements strictly above it). For the commonly studied reducibilities, the answer to this question is known except for the case of truth-table (tt) reducibility. In this paper, we answer the question in the tt case by showing that every tt-incomplete computably enumerable truth-table degree a is branching in ? tt . The fact that every Turing-incomplete computably enumerable truth-table degree is branching has been known for some time. This fact can be shown using a technique of Ambos-Spies and, as noticed by Nies, also follows from a relativization of a result of Degtev. We give a proof here using the Ambos-Spies technique because it has not yet appeared in the literature. The proof uses an infinite injury argument. Our main result is the proof when a is Turing-complete but tt-incomplete. Here we are able to exploit the Turing-completeness of a in a novel way to give a finite injury proof

Categories

Keywords

Reprint years

DOI

10.1007/s001530000050

Links

PhilArchive



    Upload a copy of this work     Papers currently archived: 91,435

External links

Setup an account with your affiliations in order to access resources via your University's proxy server

Through your library

My notes

Similar books and articles

On the structures inside truth-table degrees.Frank Stephan - 2001 - Journal of Symbolic Logic 66 (2):731-770.
The computably enumerable degrees are locally non-cappable.Matthew B. Giorgi - 2004 - Archive for Mathematical Logic 43 (1):121-139.
An Interval of Computably Enumerable Isolating Degrees.Matthew C. Salts - 1999 - Mathematical Logic Quarterly 45 (1):59-72.
Decidability of the two-quantifier theory of the recursively enumerable weak truth-table degrees and other distributive upper semi-lattices.Klaus Ambos-Spies, Peter A. Fejer, Steffen Lempp & Manuel Lerman - 1996 - Journal of Symbolic Logic 61 (3):880-905.
On Lachlan’s major sub-degree problem.S. Barry Cooper & Angsheng Li - 2008 - Archive for Mathematical Logic 47 (4):341-434.
An incomplete set of shortest descriptions.Frank Stephan & Jason Teutsch - 2012 - Journal of Symbolic Logic 77 (1):291-307.
On a Conjecture of Kleene and Post.S. Barry Cooper - 2001 - Mathematical Logic Quarterly 47 (1):3-34.
On a problem of Cooper and Epstein.Shamil Ishmukhametov - 2003 - Journal of Symbolic Logic 68 (1):52-64.
Relative enumerability and 1-genericity.Wei Wang - 2011 - Journal of Symbolic Logic 76 (3):897 - 913.
On the filter of computably enumerable supersets of an r-maximal set.Steffen Lempp, André Nies & D. Reed Solomon - 2001 - Archive for Mathematical Logic 40 (6):415-423.
Differences between Resource Bounded Degree Structures.Theodore A. Slaman & Michael~E. Mytilinaios - 2003 - Notre Dame Journal of Formal Logic 44 (1):1-12.
Branching in the $${\Sigma^0_2}$$ -enumeration degrees: a new perspective. [REVIEW]Maria L. Affatato, Thomas F. Kent & Andrea Sorbi - 2008 - Archive for Mathematical Logic 47 (3):221-231.
A δ02 set with barely σ02 degree.Rod Downey, Geoffrey Laforte & Steffen Lempp - 1999 - Journal of Symbolic Logic 64 (4):1700 - 1718.
A $Delta^02$ Set with Barely $Sigma^02$ Degree.Rod Downey, Geoffrey Laforte & Steffen Lempp - 1999 - Journal of Symbolic Logic 64 (4):1700-1718.
A superhigh diamond in the c.e. tt-degrees.Douglas Cenzer, Johanna Ny Franklin, Jiang Liu & Guohua Wu - 2011 - Archive for Mathematical Logic 50 (1-2):33-44.

Analytics

Added to PP
2013-11-23

Downloads
28 (#560,541)

6 months
3 (#987,746)

Historical graph of downloads
How can I increase my downloads?

Citations of this work

No citations found.

Add more citations

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.
The density of the nonbranching degrees.Peter A. Fejer - 1983 - Annals of Pure and Applied Logic 24 (2):113-130.

Add more references