Difference between revisions of "Cyclotomic extension"
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− | + | ''of a field $ k $'' | |
− | + | An extension $ K $ | |
+ | obtained from $ k $ | ||
+ | by adjunction of a root of unity (cf. [[Primitive root|Primitive root]]). The term is sometimes used for any subextension of $ K $ | ||
+ | over $ k $. | ||
+ | An infinite algebraic extension which is the union of finite cyclotomic extensions is also called a cyclotomic extension. Important examples of cyclotomic extensions are provided by the cyclotomic fields (cf. [[Cyclotomic field|Cyclotomic field]]), obtained when $ k = \mathbf Q $ | ||
+ | is the field of rational numbers. | ||
+ | |||
+ | Let $ k $ | ||
+ | be of characteristic 0 and let $ k ( \zeta _ {n} ) $ | ||
+ | be a cyclotomic extension obtained by adjoining a primitive root of unity $ \zeta _ {n} $. | ||
+ | Then $ k ( \zeta _ {n} ) $ | ||
+ | is the composite of $ k $ | ||
+ | and the cyclotomic field $ \mathbf Q ( \zeta _ {n} ) $. | ||
+ | For this reason, many properties of cyclotomic fields carry over to cyclotomic extensions. For example, $ k ( \zeta _ {n} ) $ | ||
+ | is an Abelian extension of $ k $( | ||
+ | this is also true for fields of finite characteristic), the Galois group of $ k ( \zeta _ {n} )/k $ | ||
+ | is a subgroup of the Galois group of $ \mathbf Q ( \zeta _ {n} )/ \mathbf Q $; | ||
+ | in particular, the order of the former Galois group divides $ \phi ( n) $, | ||
+ | where $ \phi ( n) $ | ||
+ | is the Euler function. | ||
+ | |||
+ | If $ k $ | ||
+ | is an algebraic number field, the only prime divisors that may be ramified in $ k ( \zeta _ {n} )/k $ | ||
+ | are those dividing $ n $, | ||
+ | although when $ k \neq \mathbf Q $ | ||
+ | a divisor of $ k $ | ||
+ | dividing $ n $ | ||
+ | may remain unramified in $ k ( \zeta _ {n} ) $. | ||
+ | The cyclotomic extension of an algebraic number field with Galois group $ \Gamma $ | ||
+ | isomorphic to the additive group $ \mathbf Z _ {l} $ | ||
+ | of $ l $- | ||
+ | adic numbers is called the cyclotomic $ \Gamma $- | ||
+ | extension (see [[#References|[2]]], [[#References|[3]]], [[#References|[4]]]). In the case $ \zeta _ {l} \in k $ | ||
+ | this $ \Gamma $- | ||
+ | extension has the form $ k _ \infty = \cup _ {n} k _ {n} $, | ||
+ | where $ k _ {n} = k ( \zeta _ {l ^ {n} } ) $. | ||
====References==== | ====References==== | ||
− | <table><TR><TD valign="top">[1]</TD> <TD valign="top"> S. Lang, "Algebra" , Addison-Wesley (1974)</TD></TR><TR><TD valign="top">[2]</TD> <TD valign="top"> I.R. Shafarevich, "The zeta-function" , Moscow (1969) (In Russian)</TD></TR><TR><TD valign="top">[3]</TD> <TD valign="top"> L.V. Kuz'min, "The Tate module of algebraic number fields" ''Izv. Akad. Nauk SSSR'' , '''36''' : 2 (1972) pp. 267–327 (In Russian)</TD></TR><TR><TD valign="top">[4]</TD> <TD valign="top"> K. Iwasawa, "On | + | <table><TR><TD valign="top">[1]</TD> <TD valign="top"> S. Lang, "Algebra" , Addison-Wesley (1974)</TD></TR><TR><TD valign="top">[2]</TD> <TD valign="top"> I.R. Shafarevich, "The zeta-function" , Moscow (1969) (In Russian)</TD></TR><TR><TD valign="top">[3]</TD> <TD valign="top"> L.V. Kuz'min, "The Tate module of algebraic number fields" ''Izv. Akad. Nauk SSSR'' , '''36''' : 2 (1972) pp. 267–327 (In Russian)</TD></TR><TR><TD valign="top">[4]</TD> <TD valign="top"> K. Iwasawa, "On $\mathbf Z_{l}$-extensions of algebraic number fields" ''Ann. of Math.'' , '''98''' : 2 (1973) pp. 246–326</TD></TR></table> |
Latest revision as of 18:23, 2 January 2021
of a field $ k $
An extension $ K $ obtained from $ k $ by adjunction of a root of unity (cf. Primitive root). The term is sometimes used for any subextension of $ K $ over $ k $. An infinite algebraic extension which is the union of finite cyclotomic extensions is also called a cyclotomic extension. Important examples of cyclotomic extensions are provided by the cyclotomic fields (cf. Cyclotomic field), obtained when $ k = \mathbf Q $ is the field of rational numbers.
Let $ k $ be of characteristic 0 and let $ k ( \zeta _ {n} ) $ be a cyclotomic extension obtained by adjoining a primitive root of unity $ \zeta _ {n} $. Then $ k ( \zeta _ {n} ) $ is the composite of $ k $ and the cyclotomic field $ \mathbf Q ( \zeta _ {n} ) $. For this reason, many properties of cyclotomic fields carry over to cyclotomic extensions. For example, $ k ( \zeta _ {n} ) $ is an Abelian extension of $ k $( this is also true for fields of finite characteristic), the Galois group of $ k ( \zeta _ {n} )/k $ is a subgroup of the Galois group of $ \mathbf Q ( \zeta _ {n} )/ \mathbf Q $; in particular, the order of the former Galois group divides $ \phi ( n) $, where $ \phi ( n) $ is the Euler function.
If $ k $ is an algebraic number field, the only prime divisors that may be ramified in $ k ( \zeta _ {n} )/k $ are those dividing $ n $, although when $ k \neq \mathbf Q $ a divisor of $ k $ dividing $ n $ may remain unramified in $ k ( \zeta _ {n} ) $. The cyclotomic extension of an algebraic number field with Galois group $ \Gamma $ isomorphic to the additive group $ \mathbf Z _ {l} $ of $ l $- adic numbers is called the cyclotomic $ \Gamma $- extension (see [2], [3], [4]). In the case $ \zeta _ {l} \in k $ this $ \Gamma $- extension has the form $ k _ \infty = \cup _ {n} k _ {n} $, where $ k _ {n} = k ( \zeta _ {l ^ {n} } ) $.
References
[1] | S. Lang, "Algebra" , Addison-Wesley (1974) |
[2] | I.R. Shafarevich, "The zeta-function" , Moscow (1969) (In Russian) |
[3] | L.V. Kuz'min, "The Tate module of algebraic number fields" Izv. Akad. Nauk SSSR , 36 : 2 (1972) pp. 267–327 (In Russian) |
[4] | K. Iwasawa, "On $\mathbf Z_{l}$-extensions of algebraic number fields" Ann. of Math. , 98 : 2 (1973) pp. 246–326 |
Cyclotomic extension. Encyclopedia of Mathematics. URL: http://encyclopediaofmath.org/index.php?title=Cyclotomic_extension&oldid=14022