2005/09/05 | 阿贝耳扩张[Abelian Extension]
类别(∑〖数学〗) | 评论(0) | 阅读(39) | 发表于 20:57
If is an algebraic Galois extension field of such that the Galois group of the extension is Abelian, then is said to be an Abelian extension of .
For example,

is the field of rational numbers with the square root of two adjoined, a extension field degree-two extension of . Its Galois group has two elements, the nontrivial element sending to , and is Abelian. By contrast, the degree-six extension

is the splitting field of , and is not an Abelian extension of . Indeed, the six automorphisms of , fixing , are defined by the permutations of the three roots of . So the Galois group in this case is the symmetric group on three letters, which is non-Abelian.
In an Abelian extension that is a splitting field for a polynomial , the roots of are related. For instance, consider a cyclotomic field, , where is a primitive root and is a prime number. Then the Galois group is the multiplicative group of the cyclic group .

A classical theorem in number theory says that an Abelian extension of the rationals must be a subfield of a cyclotomic field. Abelian extensions are in a sense the simplest kind of extension because Abelian groups are easier to understand than more general ones. One nice property of an Abelian extension of a field is that any intermediate subfield , with , must be a Galois extension field of and, by the fundamental theorem of Galois theory, also an Abelian extension,

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