In mathematics, a CM-field is a particular type of number field, so named for a close connection to the theory of complex multiplication. Another name used is J-field.
The abbreviation "CM" was introduced by (Shimura & Taniyama 1961).
Formal definition
editA number field K is a CM-field if it is a quadratic extension K/F where the base field F is totally real but K is totally imaginary. I.e., every embedding of F into lies entirely within , but there is no embedding of K into .
In other words, there is a subfield F of K such that K is generated over F by a single square root of an element, say β = , in such a way that the minimal polynomial of β over the rational number field has all its roots non-real complex numbers. For this α should be chosen totally negative, so that for each embedding σ of into the real number field, σ(α) < 0.
Properties
editOne feature of a CM-field is that complex conjugation on induces an automorphism on the field which is independent of its embedding into . In the notation given, it must change the sign of β.
A number field K is a CM-field if and only if it has a "units defect", i.e. if it contains a proper subfield F whose unit group has the same -rank as that of K (Remak 1954). In fact, F is the totally real subfield of K mentioned above. This follows from Dirichlet's unit theorem.
Examples
edit- The simplest, and motivating, example of a CM-field is an imaginary quadratic field, for which the totally real subfield is just the field of rationals.
- One of the most important examples of a CM-field is the cyclotomic field , which is generated by a primitive nth root of unity. It is a totally imaginary quadratic extension of the totally real field The latter is the fixed field of complex conjugation, and is obtained from it by adjoining a square root of
- The union QCM of all CM fields is similar to a CM field except that it has infinite degree. It is a quadratic extension of the union of all totally real fields QR. The absolute Galois group Gal(Q/QR) is generated (as a closed subgroup) by all elements of order 2 in Gal(Q/Q), and Gal(Q/QCM) is a subgroup of index 2. The Galois group Gal(QCM/Q) has a center generated by an element of order 2 (complex conjugation) and the quotient by its center is the group Gal(QR/Q).
- If V is a complex abelian variety of dimension n, then any abelian algebra F of endomorphisms of V has rank at most 2n over Z. If it has rank 2n and V is simple then F is an order in a CM-field. Conversely any CM field arises like this from some simple complex abelian variety, unique up to isogeny.
- One example of a totally imaginary field which is not CM is the number field defined by the polynomial .
References
edit- Remak, Robert (1954), "Über algebraische Zahlkörper mit schwachem Einheitsdefekt", Compositio Mathematica (in German), 12: 35–80, Zbl 0055.26805
- Shimura, Goro (1971), Introduction to the arithmetic theory of automorphic functions, Publications of the Mathematical Society of Japan, vol. 11, Princeton, N.J.: Princeton University Press
- Shimura, Goro; Taniyama, Yutaka (1961), Complex multiplication of abelian varieties and its applications to number theory, Publications of the Mathematical Society of Japan, vol. 6, Tokyo: The Mathematical Society of Japan, MR 0125113
- Washington, Lawrence C. (1996). Introduction to Cyclotomic fields (2nd ed.). New York: Springer-Verlag. ISBN 0-387-94762-0. Zbl 0966.11047.