A note on the normality of unramified, abelian extensions of quadratic extensions
Copyright policy )A note on the normality of unramified, abelian extensions of quadratic extensions
Let F, K and L be algebraic number fields such that\(F \subseteq K \subseteq L\), [K∶F]=2 and [L∶K]=n. It is a simple consequence of the class field theory that, if L is an abelian, unramified extension of K and (n,h)=1, where h is the class number of F, then L is normal over F. The purpose of this note is to point out the necessity of the condition (n,h)=1 by constructing for any field F with even class number a tower of fields\(F \subseteq K \subseteq L\) with [K∶F]=2, [L∶K]=2 where L is unramified over K, but L is not normal over F.
- University of Arizona United States
- DigiZeitschriften Germany
Quadratic extensions, 510.mathematics, Algebraic field extensions, normality, quadratic extensions, abelian unramified extension, Class field theory, Article
Quadratic extensions, 510.mathematics, Algebraic field extensions, normality, quadratic extensions, abelian unramified extension, Class field theory, Article
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