Difference between revisions of "Dedekind domain"

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There are also various properties of [[homological algebra|homological]] importance that Dedekind domains satisfy.
 
There are also various properties of [[homological algebra|homological]] importance that Dedekind domains satisfy.
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[[Category:Definition]]
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[[Category:Ring theory]]

Revision as of 18:01, 10 December 2007

A Dedekind domain is a commutative integral domain $R$ satisfying the following properties:

Dedekind domains are very important in abstract algebra and number theory. For example, the ring of integers of any number field is a Dedekind domain.

There are several very nice properties of Dedekind domains:

  • Dedekind domains have unique prime factorizations of ideals (but not necessarily of elements).
  • Ideals are invertible if we extend to fractional ideals. Let $R$ be a Dedekind domain with field of fractions $K$, and let $I$ be any nonzero ideal of $R$. Then set $I^{-1}=\{a\in K\mid aI\subseteq R\}$. We call an ideal $I$ invertible if $II^{-1}=R$. (Note that this is always a subset, but it is not always equal unless we are in a Dedekind domain.) In fact, the converse is true as well: if all nonzero ideals are invertible, then $R$ is a Dedekind domain. This is sometimes used as a definition.

There are also various properties of homological importance that Dedekind domains satisfy.