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Kaplansky field

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A field $K$ equipped with a valuation $v$ and satisfying Kaplansky's hypothesis A, as introduced in [a2]. Let $p$ denote the characteristic of the residue field $Kv$ if it is a positive prime; otherwise, set $p=1$. Hypothesis A requires that:

i) the value group $vK$ is a $p$-divisible group;

ii) for every additive polynomial (cf. [a5]) $f$ with coefficients in $Kv$ and every $a\in Kv$, the equation $f(X)=a$ has a solution in $Kv$. Requirement ii) implies that $Kv$ is a perfect field. Using Galois cohomology, G. Whaples [a6] showed that ii) means that the degree of every finite extension of $Kv$ is prime to $p$. An elementary proof of this was given by F. Delon in 1981.

I. Kaplansky considered immediate extensions (cf. Valuation) of fields with valuations. He used pseudo-Cauchy sequences (also called Ostrowski nets), which were introduced by A. Ostrowski in 1935. These are analogues of Cauchy sequences (cf. Cauchy sequence) for the metric induced by the valuation, but their limits need not be unique; for this reason, they are called pseudo-limits.

In [a3], W. Krull proved that there always exist maximal immediate extensions (in order to apply the Zorn lemma, Krull gave an upper bound for the cardinality of immediate extensions of a fixed field; an elegant deduction of this bound was later given by K.A.H. Gravett in [a1]). Kaplansky showed that if $(K,v)$ satisfies hypothesis A, then its maximal immediate extensions are unique up to a valuation-preserving isomorphism over $K$. The same holds for the maximal immediate algebraic extensions, and this fact can also be shown via a Galois-theoretic interpretation of hypothesis A (cf. [a4]). The former result follows from the latter by a theorem of Kaplansky (which has a certain analogue in the theory of real closed fields: If $K$ has no non-trivial immediate algebraic extensions, then the isomorphism type of an immediate extension $K(x)$ over $K$ is determined by the pseudo-Cauchy sequences in $K$ that have pseudo-limit $x$.

See also Model theory of valued fields.

References

[a1] K.A.H. Gravett, "Note on a result of Krull" Proc. Cambridge Philos. Soc. , 52 (1956) pp. 379 MR0075937 Zbl 0073.02702
[a2] I. Kaplansky, "Maximal fields with valuations I" Duke Math. J. , 9 (1942) pp. 303–321 MR6161 Zbl 0061.05506
[a3] W. Krull, "Allgemeine Bewertungstheorie" J. Reine Angew. Math. , 167 (1932) pp. 160–196 Zbl 0004.09802 Zbl 58.0148.02
[a4] F.-V. Kuhlmann, M. Pank, P. Roquette, "Immediate and purely wild extensions of valued fields" Manuscr. Math. , 55 (1986) pp. 39–67 MR0828410 Zbl 0593.12018
[a5] S. Lang, "Algebra" , Addison-Wesley (1974) MR0783636 Zbl 0712.00001
[a6] G. Whaples, "Galois cohomology of additive polynomials and $n$-th power mappings of fields" Duke Math. J. , 24 (1957) pp. 143–150 MR0092826
How to Cite This Entry:
Kaplansky field. Encyclopedia of Mathematics. URL: http://encyclopediaofmath.org/index.php?title=Kaplansky_field&oldid=33201
This article was adapted from an original article by F.-V. Kuhlmann (originator), which appeared in Encyclopedia of Mathematics - ISBN 1402006098. See original article