The jump is definable in the structure of the degrees of unsolvability

Cooper, S. Barry

doi:10.1090/s0273-0979-1990-15923-3

Cited by 25 publications

(16 citation statements)

References 28 publications

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“…Cooper [1] argued for the definability of the jump along the lines of the definition of A provided by Jockusch and Shore [3]. We outline the plan of the proof of the definability of A so as to be able to both describe Cooper's proposal and present our own proof, as all of them follow the same general plan.…”

Section: Reducible To B or A Is Recursive (Computable) In B This Relmentioning

confidence: 99%

“…Cooper [1] suggested a similar approach to the problem of defining the jump operator. His plan was to use a version of Theorem 1.7 for 2 − r.e.…”

Section: Theorem 18 (Sacks [8]) There Is An ω − Re Operator J Sucmentioning

confidence: 99%

“…For the other direction Cooper [1] claimed as his Main Theorem that there is a suitable 2−r.e. set and so a 2−r.e.…”

Section: Theorem 18 (Sacks [8]) There Is An ω − Re Operator J Sucmentioning

confidence: 99%

“…This would have sufficed to define 0 and so, by relativization, the jump operator itself. Cooper [1] proposed to argue for the existence of such a 2 − r.e. set with a 0 priority construction similar to that proving Lachlan's [7] Nonsplitting Theorem for the recursively enumerable degrees.…”

Section: Theorem 18 (Sacks [8]) There Is An ω − Re Operator J Sucmentioning

confidence: 99%

“…set with a 0 priority construction similar to that proving Lachlan's [7] Nonsplitting Theorem for the recursively enumerable degrees. However, the following theorem shows that there is no such set and so Cooper's [1] proposed property does not define the jump. As Lachlan has proved that every 2 − r.e.…”

Section: Theorem 18 (Sacks [8]) There Is An ω − Re Operator J Sucmentioning

confidence: 99%

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Defining the Turing Jump

Shore

Slaman

1999

Mathematical Research Letters

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Section: Reducible To B or A Is Recursive (Computable) In B This Relmentioning

confidence: 99%

“…Cooper [1] suggested a similar approach to the problem of defining the jump operator. His plan was to use a version of Theorem 1.7 for 2 − r.e.…”

Section: Theorem 18 (Sacks [8]) There Is An ω − Re Operator J Sucmentioning

confidence: 99%

“…For the other direction Cooper [1] claimed as his Main Theorem that there is a suitable 2−r.e. set and so a 2−r.e.…”

Section: Theorem 18 (Sacks [8]) There Is An ω − Re Operator J Sucmentioning

confidence: 99%

Section: Theorem 18 (Sacks [8]) There Is An ω − Re Operator J Sucmentioning

confidence: 99%

Section: Theorem 18 (Sacks [8]) There Is An ω − Re Operator J Sucmentioning

confidence: 99%

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Defining the Turing Jump

Shore

Slaman

1999

Mathematical Research Letters

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On a Conjecture of Kleene and Post

Cooper¹

2001

MLQ - Math. Log. Quart.

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A proof is given that 0 (the largest Turing degree containing a computably enumerable set) is definable in the structure of the degrees of unsolvability. This answers a long-standing question of Kleene and Post, and has a number of corollaries including the definability of the jump operator.Mathematics Subject Classification: 03D25, 03D30, 03D35.Following Gödel [8], Church [1] and Turing's [33] discovery that most familiar mathematical theories are undecidable, the existence of a noncomputable universe intimately connected with the relatively small world of everyday mathematics has led to the development (see Kleene and Post [14]) of the degrees of unsolvability D as an appropriate theoretical framework, or fine structure theory. While more mundane considerations dictated a direct interest in the details of the computable universe, the early work of Kleene and Post [14] presaged an ever deepening understanding of the nature of the noncomputable universe, a development both of philosophical significance and of wider technical application.The most important noncomputable degree 0 is that containing the (coded) undecidable axiomatic theories of Gödel, as well as many other natural mathematical objects. When relativised to a set A of degree a, it gives rise to a jump operator taking a to a strictly higher degree a , defined as the largest degree containing sets which are computably enumerable (written c. e.) using oracle A. Post's Theorem [23] showed a close relationship between the quantifier forms of most naturally occuring sets of numbers and the ascending sequence 0 < 0 < 0 < · · · < 0 (n+1) = (0 (n) ) < · · · (0 being the degree of the computable sets). 0 and the jump operator are basic

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The Decidability of the Existential Theory of the Poset of Recursively Enumerable Degrees with Jump Relations

Lempp

Lerman

1996

Advances in Mathematics

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We show that the existential theory of the recursively enumerable degrees in the language L containing predicates for order and n-jump comparability for all n, and constant symbols for least and greatest elements, is decidable. The decidability follows from our main theorem, where we show that any finite L-structure which is consistent with the order relation, the order-preserving property of the jump operator, and the property of the jump operator that the jump of an element is strictly greater than the element, can be embedded into the r.e. degrees. 1996Academic Press, Inc.

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The jump is definable in the structure of the degrees of unsolvability

Cited by 25 publications

References 28 publications

Defining the Turing Jump

Defining the Turing Jump

On a Conjecture of Kleene and Post

The Decidability of the Existential Theory of the Poset of Recursively Enumerable Degrees with Jump Relations

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