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Ash, C. J.

Stability of recursive structures in arithmetical degrees. (English) Zbl 0631.03016

Ann. Pure Appl. Logic 32, 113-135 (1986).
A recursive structure \({\mathfrak A}\) is \(\Delta^ 0_ n\)-stable if every isomorphism of \({\mathfrak A}\) with every other recursive structure is \(\Delta^ 0_ n\) in Kleene’s arithmetical hierarchy. The notion of a formally \(\Delta^ 0_ n\)-enumeration of a recursive structure \({\mathfrak A}\) is defined in the paper. It is easy to prove that if a recursive structure \({\mathfrak A}\) has a formally \(\Delta^ 0_ n\)-enumeration, then it is \(\Delta^ 0_ n\)-stable. The converse of this result is proved under the assumption that the existential diagram of \({\mathfrak A}\) and the relations, pointed out in the paper, are recursive. For \(\Delta^ 0_ 1\)-stability the proof uses a finite injury priority argument and it was given by S. S. Goncharov [Algebra Logika 14, 647-680 (1975; Zbl 0367.02023)]. For \(\Delta^ 0_ 2\)-stability the proof uses an infinite injury argument and for \(\Delta^ 0_ 3\)-stability a ‘monstrous’ injury argument. The author shows how this process can be continued for all n.
Reviewer: A.N.Ryaskin

Cited in 5 Reviews
Cited in 31 Documents

MSC:

03C57 Computable structure theory, computable model theory
03D45 Theory of numerations, effectively presented structures

Keywords:

recursive structure; arithmetical hierarchy; stability

Citations:

Zbl 0367.02023
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Full Text: DOI

References:

[1] Ash, C. J.; Nerode, A., Intrinsically recursive relations, (Crossley, J. N., Aspects of Recursive Algebra (1981), U.D.A. Book Co: U.D.A. Book Co Steel’s Creek), 26-41 · Zbl 0467.03041
[2] C.J. Ash, Recursive labelling systems and stability in hyperarithmetical degrees, Trans. A.M.S., to appear.; C.J. Ash, Recursive labelling systems and stability in hyperarithmetical degrees, Trans. A.M.S., to appear. · Zbl 0631.03017
[3] Barker, E., (M.Sc. Thesis (1985), Monash University)
[4] J.N. Crossley, A.B. Manaster and M. Moses, Recursive categoricity and recursive stability, Monash Logic Paper No. 49.; J.N. Crossley, A.B. Manaster and M. Moses, Recursive categoricity and recursive stability, Monash Logic Paper No. 49. · Zbl 0605.03023
[5] Goncharov, S. S., Autostability and computable families of constructivizations, Algebra & Logic, 14, 392-409 (1975) · Zbl 0382.03033
[6] Keisler, H. J., Model Theory for Infinitary Logic (1971), North-Holland: North-Holland Amsterdam · Zbl 0222.02064
[7] Rogers, H., Theory of Recursive Functions and Effective Computability (1967), McGraw-Hill: McGraw-Hill New York · Zbl 0183.01401
[8] Rosenstein, J., Linear Orderings (1982), Academic Press: Academic Press New York · Zbl 0511.03018
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