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Model-complete theories of formally real fields and formally p-adic fields

Published online by Cambridge University Press:  12 March 2014

William H. Wheeler*
Affiliation:
Indiana University, Bloomington, Indiana 47401

Extract

The complete, model-complete theories of pseudo-algebraically closed fields were characterized completely in [11]. That work constituted the first step towards determining all the model-complete theories of fields in the usual language of fields. In this paper the second step is taken. Namely, the methods of [11] are extended to characterize the complete, model-complete theories of pseudo-real closed fields and pseudo-p-adically closed fields.

In order to unify the treatment of these two types of fields, the relevant properties of real closed ordered fields and p-adically closed valued fields are abstracted. The subsequent investigation of model-complete theories of fields is based entirely on these properties. The properties were selected in order to solve three problems: (1) finding universal theories with the joint embedding property, (2) finding first order conditions in the usual language of fields which are necessary and sufficient for a polynomial over a field to have a zero in a formally real or formally p-adic extension of that field, and (3) finding subgroups of Galois groups whose fixed fields are formally real or formally p-adic.

This paper is related to, and uses in §1 but not in the other sections, parts of K. McKenna's work [8] on model-complete theories of ordered fields and p-valued fields. However, the results herein are not direct consequences of his work, both because these results apply to a more general situation and because they use a different formal language. Concerning the latter point, in some instances, such as real closed ordered fields and p-adically closed valued fields, model-complete theories in expanded languages do yield model-complete theories of ordinary fields other than theories of pseudo-algebraically closed fields. However, in other cases, such as differentially closed fields, this is not so.

Type
Research Article
Copyright
Copyright © Association for Symbolic Logic 1983

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References

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