- Ring of integers
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In mathematics, the ring of integers is the set of integers making an algebraic structure Z with the operations of integer addition, negation, and multiplication. It is a commutative ring, and is the prototypical such by virtue of satisfying only those equations holding of all commutative rings with identity; indeed it is the initial commutative ring, as well as being the initial ring.
More generally the ring of integers of an algebraic number field K, often denoted by OK (or
), is the ring of algebraic integers contained in K.Using this notation, we can write Z = OQ since Z as above is the ring of integers of the field Q of rational numbers. And indeed, in algebraic number theory the elements of Z are often called the "rational integers" because of this.
An alternative term is maximal order, since the ring of integers of a number field is indeed the unique maximal order in the field.
The ring of integers OK is a Z-module. Indeed it is a free Z-module, and thus has an integral basis, that is a basis b1,...,bn ∈ OK of the Q-vector space K such that each element x in OK can be uniquely represented as
with ai ∈ Z. The rank n of OK as a free Z-module is equal to the degree of K over Q.
The rings of integers in number fields are Dedekind domains.
Examples
If p is a prime, ζ is a pth root of unity and K=Q(ζ) is the corresponding cyclotomic field, then an integral basis of OK=Z[ζ] is given by (1, ζ, ζ2, ..., ζp−2).
If d is a square-free integer and K = Q(d 1/2) is the corresponding quadratic field, then an integral basis of OK is given by (1, (1 + d1/2)/2) if d ≡ 1 (mod 4) and by (1, d 1/2) if d ≡ 2 or 3 (mod 4).
The ring of p-adic integers Zp is the ring of integers of a p-adic numbers Qp.
See also
- Quadratic integer
References
- Neukirch, Jürgen (1999), Algebraic Number Theory, Grundlehren der mathematischen Wissenschaften, 322, Berlin: Springer-Verlag, ISBN 978-3-540-65399-8, MR1697859
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