Regular local ring: Difference between revisions

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One important criterion for regularity is [[Serre's Criterion]], which states that a Noetherian local ring <math>A</math> is regular if and only if its [[global dimension]] is finite, in which case it is equal to the krull dimension of <math>A</math>.  
One important criterion for regularity is [[Serre's Criterion]], which states that a Noetherian local ring <math>A</math> is regular if and only if its [[global dimension]] is finite, in which case it is equal to the krull dimension of <math>A</math>.  


In a paper of Auslander and Buchsbaum published in 1959, it was shown that every regular local ring is a UFD.
In a paper of Auslander and Buchsbaum published in 1959, it was shown that every regular local ring is a [[unique factorization domain]].


==Regular Rings==
==Regular Rings==

Revision as of 05:13, 23 April 2008

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There are deep connections between algebraic (in fact, scheme-theoretic) notions of smoothness and regularity.


Definition

Let be a Noetherian local ring with maximal ideal and residual field . The following conditions are equivalent:

  1. The Krull dimension of is equal to the dimension of the -vector space .

And when these conditions hold, is called a regular local ring.

Basic Results on Regular Local Rings

One important criterion for regularity is Serre's Criterion, which states that a Noetherian local ring is regular if and only if its global dimension is finite, in which case it is equal to the krull dimension of .

In a paper of Auslander and Buchsbaum published in 1959, it was shown that every regular local ring is a unique factorization domain.

Regular Rings

A regular ring is a Noetherian ring such that the localisation at every prime is a regular local ring.