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Descending sequences of degrees

Published online by Cambridge University Press:  12 March 2014

John Steel
John Steel*
Affiliation:
University of California, Berkeley, California 94720
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Extract

Our unexplained notation is that of Rogers [4]. Let P ⊆ 2N × 2N. We call a sequence <An: n ∈ N> of subsets of N a P-sequence iff ∀n(An+1 = the unique B such that P(An, B)).

Theorem. Let P ⊆ 2N × 2N be arithmetical. Then there is no P-sequence <An: n ∈ N> such that ∀n(A′n+1T An).

This theorem improves a result of Friedman [2] who showed that for no arithmetical P is there a P-sequence <An: n ∈ N> such that An + 1 is a code for an ω-model of the relative arithmetic comprehension schema, and An + 1 is present in the model coded by An, for all n. Other related results are those of Harrison [3], who showed there is a sequence <An: n ∈ N> such that ∀n<A′n + 1T An>, and of Enderton and Putnam [1], who showed there is no sequence <An: n ∈ N> with ∀n(A′n + 1T An) and A0 hyperarithmetic.

Our theorem is closely connected to Gödel's second incompleteness theorem. Its proof is a recursion theoretic parallel to the proof of Gödel's theorem. In §2 we draw a version of Gödel's theorem as a corollary to ours.

Type
Research Article
Information
The Journal of Symbolic Logic , Volume 40 , Issue 1 , March 1975 , pp. 59 - 61
Copyright
Copyright © Association for Symbolic Logic 1975

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References

REFERENCES

[1]Enderton, H. B. and Putnam, H., A note on the hyperarithmetical hierarchy, this Journal, vol. 35 (1970), pp. 429430.Google Scholar
[2]Friedman, H., Sequences of models (unpublished).Google Scholar
[3]Harrison, J., Recursive pseudo-well-orderings, Transactions of the American Mathematical Society, vol. 131 (1968), pp. 526543.CrossRefGoogle Scholar
[4]Rogers, H. Jr., Theory of recursive functions and effective computability, McGraw-Hill, New York, 1967.Google Scholar