Affine scheme: Difference between revisions

From Citizendium
Jump to navigation Jump to search
imported>Giovanni Antonio DiMatteo
(→‎The Structural Sheaf: adding def of structural sheaf)
imported>Giovanni Antonio DiMatteo
Line 17: Line 17:
# For all <math>f\in A</math>, <math>\Gamma(D(f),O_X)\simeq A_f</math>, where <math>A_f</math> is the localization of <math>A</math> by the multiplicative set <math>S=\{1,f,f^2,\ldots\}</math>. In particular, <math>\Gamma(X,O_X)\simeq A</math>.
# For all <math>f\in A</math>, <math>\Gamma(D(f),O_X)\simeq A_f</math>, where <math>A_f</math> is the localization of <math>A</math> by the multiplicative set <math>S=\{1,f,f^2,\ldots\}</math>. In particular, <math>\Gamma(X,O_X)\simeq A</math>.


Explicitly, the structural sheaf <math>O_X=</math> may be constructed as follows. To each open set <math>U</math>, associate the set of functions <math>O_X(U):=\{s:U\to \coprod_{p\in U\} A_p|s(p)\in A_p, \text{ and }s\text{ is locally constant}\}</math>; that is, <math>s</math> is locally constant if for every <math>p\in U</math>, there is an open neighborhood <math>V</math> contained in <math>U</math> and elements <math>a,f\in A</math> such that for all <math>q\in V</math>, <math>s(q)=a/f\in A_q</math> (in particular, <math>f</math> is required to not be an element of any <math>q\in V</math>).  This description is phrased in a common way of thinking of sheaves, and in fact captures their local nature. One construction of the [[sheafification]] functor makes use of such a perspective.
Explicitly, the structural sheaf <math>O_X=</math> may be constructed as follows. To each open set <math>U</math>, associate the set of functions <math>O_X(U):=\{s:U\to \amalg_{p\in U\} A_p|s(p)\in A_p, \text{ and }s\text{ is locally constant}\}</math>; that is, <math>s</math> is locally constant if for every <math>p\in U</math>, there is an open neighborhood <math>V</math> contained in <math>U</math> and elements <math>a,f\in A</math> such that for all <math>q\in V</math>, <math>s(q)=a/f\in A_q</math> (in particular, <math>f</math> is required to not be an element of any <math>q\in V</math>).  This description is phrased in a common way of thinking of sheaves, and in fact captures their local nature. One construction of the [[sheafification]] functor makes use of such a perspective.


==The Category of Affine Schemes==
==The Category of Affine Schemes==

Revision as of 17:04, 12 December 2007

Definition

For a commutative ring , the set (called the prime spectrum of ) denotes the set of prime ideals of $A$. This set is endowed with a topology of closed sets, where closed subsets are defined to be of the form

for any subset . This topology of closed sets is called the Zariski topology on . It is easy to check that , where is the ideal of generated by .

Some Topological Properties

is quasi-compact and , but is rarely Hausdorff.

The Structural Sheaf

has a natural sheaf of rings, denoted , called the structural sheaf of X. The important properties of this sheaf are that

  1. The stalk is isomorphic to the local ring , where is the prime ideal corresponding to .
  2. For all , , where is the localization of by the multiplicative set . In particular, .

Explicitly, the structural sheaf may be constructed as follows. To each open set , associate the set of functions Failed to parse (syntax error): {\displaystyle O_X(U):=\{s:U\to \amalg_{p\in U\} A_p|s(p)\in A_p, \text{ and }s\text{ is locally constant}\}} ; that is, is locally constant if for every , there is an open neighborhood contained in and elements such that for all , (in particular, is required to not be an element of any ). This description is phrased in a common way of thinking of sheaves, and in fact captures their local nature. One construction of the sheafification functor makes use of such a perspective.

The Category of Affine Schemes

Regarding as a contravariant functor between the category of commutative rings and the category of affine schemes, one can show that it is in fact an anti-equivalence of categories.


Curves