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Complete theories with countably many rigid nonisomorphic models1

Published online by Cambridge University Press:  12 March 2014

Jerome Malitz*
Affiliation:
University of Colorado, Boulder, Colorado 80302

Extract

Here we prove the following:

Theorem. For every N ≤ ω there is a complete theory Tn having exactly n nonisomorphic rigid models and no uncountable rigid models. Moreover, each non-rigid model admits a nontrivial automorphism.

The Tn are theories in the first-order predicate calculus and a rigid structure is a structure with no nontrivial endomorphisms, i.e., the only endomorphism of the structure into itself is the identity. The theorem answers a question of A. Ehrenfeucht.

For the most part we use standard model theoretic notation with Th denoting the set of sentences true in and meaning . A complete set of sentences is one of the form Th for some . The universe of a structure may be denoted by ∣∣. An n-ary relation on X is a set of n tuples (x0, …, xn−1) with each xiX. All the structures encounted here will be relational. If P is an n-ary relation then PY, the restriction of P to Y, is {(x0, …, xn−1): (x0, …, xn−1) ∈ P and x0, …, xn−1Y}.

Type
Research Article
Copyright
Copyright © Association for Symbolic Logic 1975

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Footnotes

1

This work was supported in part by NSF grant GP-28070.

References

REFERENCES

Ehrenfeucht, A., Elementary theories without automorphisms, Theory of models (Addison, J. W., Henkin, L., Tarski, A., Editors) North-Holland, Amsterdam, 1965, pp. 7076.Google Scholar