Dedekind domain: Difference between revisions

Definition

A Dedekind domain is a Noetherian domain ${\displaystyle o}$, integrally closed in its field of fractions, so that every prime ideal is maximal.

These axioms are sufficient for ensuring that every ideal of ${\displaystyle o}$ that is not ${\displaystyle (0)}$ or ${\displaystyle (1)}$ can be written as a finite product of prime ideals in a unique way (up to a permutation of the terms of the product).

This product extends to the set of fractional ideals of the field ${\displaystyle K=Frac(o)}$ (i.e., the nonzero finitely generated ${\displaystyle o}$-submodules of ${\displaystyle K}$).

Useful Properties

1. Every principal ideal domain is a unique factorization domain, but the converse is not true in general. However, these notions are equivalent for Dedekind domains.
2. The localization of a Dedekind domain at a non-zero prime ideal is a principal ideal domain, which is either a field or a discrete valuation ring.

Examples

1. The ring ${\displaystyle \mathbb {Z} }$ is a Dedekind domain.
2. Let ${\displaystyle K}$ be a number field. Then the integral closure ${\displaystyle o_{K}}$of ${\displaystyle \mathbb {Z} }$ in ${\displaystyle K}$ is again a Dedekind domain. In fact, if ${\displaystyle o}$ is a Dedekind domain with field of fractions ${\displaystyle K}$, and ${\displaystyle L/K}$ is a finite extension of ${\displaystyle K}$ and ${\displaystyle O}$ is the integral closure of ${\displaystyle o}$ in ${\displaystyle L}$, then ${\displaystyle O}$ is again a Dedekind domain.

References

• Neukirch, Jürgen (1999). Algebraic Number Theory, , ISBN 3-540-65399-6.
• Neukirch, Jürgen (1999). Algebraic Number Theory. Springer-Verlag. ISBN 3-540-65399-6.