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Jump equivalence of the Δ20 hyperimmune sets1

Published online by Cambridge University Press:  12 March 2014

S. B. Cooper
S. B. Cooper*
Affiliation:
University of California, Berkeley, California 94720 University of Leeds, Leeds, England
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Extract

An infinite set A is said to be hyperhyperimmune (h.h.i.) if, for any collection of disjoint simultaneously recursively enumerable (r.e.) finite sets, A must fail to intersect with one of those sets. Thus the elements of an h.h.i. set are, in a sense, very elusive. D. A. Martin [3] showed that the degrees of h.h.i. sets with r.e. complements are exactly the r.e. degrees with jump 0″. More generally, C. G. Jockusch [2] found a′0″ to be a sufficient condition for a to be the degree of an h.h.i. set and found a′0′ to be necessary. However, it was also shown that in the degrees as a whole neither condition gave a characterization of the h.h.i. degrees. The purpose of this note is to prove that a′ = 0″does characterize the h.h.i. degrees below 0′.

Theorem. The degrees below 0′ containing h.h.i. sets are exactly those degrees below 0′ with jump 0″.

Proof. From [2], if a′0″, then a contains an h.h.i. set.

Conversely, let Aa where a′ < 0″ and a < 0′. Let {Ass ≥ 0} be a recursive sequence of finite sets such that for each x, lims, Ax(x) exists and equals A(x).

For a set B, let B[m] denote B ∩ [0, m], and (if B is finite) let ∣B∣ denote the cardinality of B.

Type
Research Article
Information
The Journal of Symbolic Logic , Volume 37 , Issue 3 , September 1972 , pp. 598 - 600
Copyright
Copyright © Association for Symbolic Logic 1972

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Footnotes

1

This work was financed in part under the Senior Fulbright-Hays Program.

References

REFERENCES

[1]Cooper, S. B., Minimal degrees and the jump-operator, this Journal (to appear).Google Scholar
[2]Jockusch, Carl G. Jr., The degrees of hyperhyperimmune sets, this Journal, vol. 34 (1969), pp. 489493.Google Scholar
[3]Martin, D. A., Classes of recursively enumerable sets and degrees of unsolvability, Zeitschrift für mathematische Logik und Grundlagen der Mathematik, vol. 12 (1966), pp. 295310.CrossRefGoogle Scholar
[4]Yates, C. E. M., Recursively enumerable sets and retracing functions, Zeitschrift für mathematische Logik und Grundlagen der Mathematik, vol. 8 (1962), p. 341.CrossRefGoogle Scholar