Cyclotomic field: Difference between revisions
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In [[mathematics]], a '''cyclotomic field''' is a [[Field theory (mathematics)|field]] which is an [[field extension|extension]] generated by [[root of unity|roots of unity]]. If ζ denotes an ''n''-th root of unity, then the ''n''-th cyclotomic field ''F'' is the [[field extension]] <math>\mathbf{Q}(\zeta)</math>. | In [[mathematics]], a '''cyclotomic field''' is a [[Field theory (mathematics)|field]] which is an [[field extension|extension]] generated by [[root of unity|roots of unity]]. If ζ denotes an ''n''-th root of unity, then the ''n''-th cyclotomic field ''F'' is the [[field extension]] <math>\mathbf{Q}(\zeta)</math>. | ||
Revision as of 11:52, 21 January 2009
In mathematics, a cyclotomic field is a field which is an extension generated by roots of unity. If ζ denotes an n-th root of unity, then the n-th cyclotomic field F is the field extension .
Ring of integers
As above, we take ζ to denote an n-th root of unity. The maximal order of F is
Unit group
Class group
Splitting of primes
A prime p ramifies iff p divides n. Otherwise, the splitting of p depends on the factorisation of the polynomial modulo p, which in turn depends on the highest common factor of p-1 and n.
Galois group
The minimal polynomial for ζ is the n-th cyclotomic polynomial , which is a factor of . Since the powers of ζ are the roots of the latter polynomial, F is a splitting field for and hence a Galois extension. The Galois group is isomorphic to the multiplicative group, via
References
- A. Fröhlich; M.J. Taylor (1991). Algebraic number theory. Cambridge University Press. ISBN 0-521-36664-X.
- Serge Lang (1990). Cyclotomic Fields I and II, Combined 2nd edition. Springer-Verlag. ISBN 0-387-96671-4.
- Pierre Samuel (1972). Algebraic number theory. Hermann/Kershaw.
- I.N. Stewart; D.O. Tall (1979). Algebraic number theory. Chapman and Hall. ISBN 0-412-13840-9.
- Lawrence C. Washington (1982). Introduction to Cyclotomic Fields. Springer-Verlag. ISBN 0-387-90622-3.