Difference between revisions of "Irreducible analytic space"
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− | An [[Analytic space|analytic space]] that cannot be represented as the union of a locally finite family of analytic subspaces. An irreducible analytic space is a generalization of the concept of an irreducible [[Analytic set|analytic set]]. Every analytic space can be represented uniquely as an irreducible union of a locally finite family of irreducible analytic subspaces, its so-called irreducible components (the stratification of a space into irreducible components). A complex-analytic manifold is irreducible if and only if it is connected; the irreducible components of a manifold are its connected components. The germ of an analytic space at a given point of it is called irreducible if it cannot be represented as a union of finitely many germs of analytic subspaces at the same point. Every germ of an analytic space at a point can be represented uniquely as a union of finitely many irreducible subgerms of it. The germ of a reduced [[Complex space|complex space]] | + | <!-- |
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+ | An [[Analytic space|analytic space]] that cannot be represented as the union of a locally finite family of analytic subspaces. An irreducible analytic space is a generalization of the concept of an irreducible [[Analytic set|analytic set]]. Every analytic space can be represented uniquely as an irreducible union of a locally finite family of irreducible analytic subspaces, its so-called irreducible components (the stratification of a space into irreducible components). A complex-analytic manifold is irreducible if and only if it is connected; the irreducible components of a manifold are its connected components. The germ of an analytic space at a given point of it is called irreducible if it cannot be represented as a union of finitely many germs of analytic subspaces at the same point. Every germ of an analytic space at a point can be represented uniquely as a union of finitely many irreducible subgerms of it. The germ of a reduced [[Complex space|complex space]] $ ( X , {\mathcal O} ) $ | ||
+ | at a point $ x \in X $ | ||
+ | is irreducible if and only if the local ring $ {\mathcal O} _ {x} $ | ||
+ | has no divisors of zero. A complex space whose germs at all its points are irreducible is itself irreducible if and only if it is connected; the irreducible components of a complex space are its connected components. | ||
====References==== | ====References==== | ||
<table><TR><TD valign="top">[1]</TD> <TD valign="top"> R.C. Gunning, H. Rossi, "Analytic functions of several complex variables" , Prentice-Hall (1965)</TD></TR><TR><TD valign="top">[2]</TD> <TD valign="top"> M. Hervé, "Several complex variables: local theory" , Oxford Univ. Press (1963)</TD></TR></table> | <table><TR><TD valign="top">[1]</TD> <TD valign="top"> R.C. Gunning, H. Rossi, "Analytic functions of several complex variables" , Prentice-Hall (1965)</TD></TR><TR><TD valign="top">[2]</TD> <TD valign="top"> M. Hervé, "Several complex variables: local theory" , Oxford Univ. Press (1963)</TD></TR></table> |
Latest revision as of 22:13, 5 June 2020
An analytic space that cannot be represented as the union of a locally finite family of analytic subspaces. An irreducible analytic space is a generalization of the concept of an irreducible analytic set. Every analytic space can be represented uniquely as an irreducible union of a locally finite family of irreducible analytic subspaces, its so-called irreducible components (the stratification of a space into irreducible components). A complex-analytic manifold is irreducible if and only if it is connected; the irreducible components of a manifold are its connected components. The germ of an analytic space at a given point of it is called irreducible if it cannot be represented as a union of finitely many germs of analytic subspaces at the same point. Every germ of an analytic space at a point can be represented uniquely as a union of finitely many irreducible subgerms of it. The germ of a reduced complex space $ ( X , {\mathcal O} ) $
at a point $ x \in X $
is irreducible if and only if the local ring $ {\mathcal O} _ {x} $
has no divisors of zero. A complex space whose germs at all its points are irreducible is itself irreducible if and only if it is connected; the irreducible components of a complex space are its connected components.
References
[1] | R.C. Gunning, H. Rossi, "Analytic functions of several complex variables" , Prentice-Hall (1965) |
[2] | M. Hervé, "Several complex variables: local theory" , Oxford Univ. Press (1963) |
Irreducible analytic space. Encyclopedia of Mathematics. URL: http://encyclopediaofmath.org/index.php?title=Irreducible_analytic_space&oldid=47432