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Difference between revisions of "Multiplicity of a singular point"

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at  $  x $
 
at  $  x $
 
coincides with the multiplicity of the [[Tangent cone|tangent cone]]  $  C ( X, x) $
 
coincides with the multiplicity of the [[Tangent cone|tangent cone]]  $  C ( X, x) $
at the vertex, and also with the degree of the special fibre  $  \sigma  ^ {-} 1 ( x) $
+
at the vertex, and also with the degree of the special fibre  $  \sigma  ^ {-1} ( x) $
 
of a blow-up  $  \sigma :  X  ^  \prime  \rightarrow X $
 
of a blow-up  $  \sigma :  X  ^  \prime  \rightarrow X $
 
of  $  X $
 
of  $  X $
 
at  $  x $,  
 
at  $  x $,  
where  $  \sigma  ^ {-} 1 ( X) $
+
where  $  \sigma  ^ {-1} ( X) $
 
is considered to be immersed in the projective space  $  P ( \mathfrak m / \mathfrak m  ^ {2} ) $(
 
is considered to be immersed in the projective space  $  P ( \mathfrak m / \mathfrak m  ^ {2} ) $(
 
see [[#References|[3]]]). One has  $  \mu ( X, x) = 1 $
 
see [[#References|[3]]]). One has  $  \mu ( X, x) = 1 $
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is a non-singular (regular) point of  $  X $.  
 
is a non-singular (regular) point of  $  X $.  
 
If  $  X $
 
If  $  X $
is a hypersurface in a neighbourhood of  $  x $(
+
is a hypersurface in a neighbourhood of  $  x $
i.e.  $  X $
+
(i.e.  $  X $
 
is given by a single equation  $  f = 0 $
 
is given by a single equation  $  f = 0 $
 
in an affine space  $  Z $),  
 
in an affine space  $  Z $),  

Latest revision as of 17:12, 7 February 2021


of an algebraic variety

An integer which is a measure of the singularity of the algebraic variety at that point. The multiplicity $ \mu ( X, x) $ of a variety $ X $ at a point $ x $ is defined to be the multiplicity of the maximal ideal $ \mathfrak m $ in the local ring $ {\mathcal O} _ {X, x } $. The multiplicity of $ X $ at $ x $ coincides with the multiplicity of the tangent cone $ C ( X, x) $ at the vertex, and also with the degree of the special fibre $ \sigma ^ {-1} ( x) $ of a blow-up $ \sigma : X ^ \prime \rightarrow X $ of $ X $ at $ x $, where $ \sigma ^ {-1} ( X) $ is considered to be immersed in the projective space $ P ( \mathfrak m / \mathfrak m ^ {2} ) $( see [3]). One has $ \mu ( X, x) = 1 $ if and only if $ x $ is a non-singular (regular) point of $ X $. If $ X $ is a hypersurface in a neighbourhood of $ x $ (i.e. $ X $ is given by a single equation $ f = 0 $ in an affine space $ Z $), then $ \mu ( X, x) $ is identical with the number $ n $ such that $ f \in \mathfrak n ^ {n} \setminus \mathfrak n ^ {n + 1 } $, where $ \mathfrak n $ is the maximal ideal in the local ring $ {\mathcal O} _ {Z, x } $. The multiplicity does not change when $ X $ is cut by a generic hypersurface through $ x $. If $ X _ {d} $ denotes the set of points $ x \in X $ such that $ \mu ( X, x) \geq d $, then $ X _ {d} $ is a closed subset (a subvariety).

References

[1] D. Mumford, "Algebraic geometry" , 1. Complex projective varieties , Springer (1976) MR0453732 Zbl 0356.14002
[2] J.-P. Serre, "Algèbre locale. Multiplicités" , Lect. notes in math. , 11 , Springer (1965) MR0201468 Zbl 0142.28603
[3] C.P. Ramanujam, "On a geometric interpretation of multiplicity" Invent. Math. , 22 : 1 (1973) pp. 63–67 MR0354663 Zbl 0265.14004

Comments

For the multiplicity of the maximal ideal of a local ring, cf. Multiplicity of a module.

How to Cite This Entry:
Multiplicity of a singular point. Encyclopedia of Mathematics. URL: http://encyclopediaofmath.org/index.php?title=Multiplicity_of_a_singular_point&oldid=51560
This article was adapted from an original article by V.I. Danilov (originator), which appeared in Encyclopedia of Mathematics - ISBN 1402006098. See original article