Regular embedding

In algebraic geometry, a closed immersion $i:X\hookrightarrow Y$ of schemes is a regular embedding of codimension r if each point x in X has an open affine neighborhood U in Y such that the ideal of $X\cap U$ is generated by a regular sequence of length r.

For example, if X and Y are smooth over a scheme S and if i is an S-morphism, then i is a regular embedding. In particular, every section of a smooth morphism is a regular embedding.^[1] If $\operatorname {Spec}B$ is regularly embedded into a regular scheme, then B is a complete intersection ring.^[2]

The notion is used, for instance, in an essential way in Fulton's approach to intersection theory. The important fact is that when i is a regular embedding, if I is the ideal sheaf of X in Y, then the normal sheaf, the dual of $I/I^{2}$ , is locally free (thus a vector bundle) and the natural map $\operatorname {Sym}(I/I^{2})\to \oplus _{0}^{\infty }I^{n}/I^{{n+1}}$ is an isomorphism: the normal cone $\operatorname {Spec}(\oplus _{0}^{\infty }I^{n}/I^{{n+1}})$ coincides with the normal bundle.

A flat morphism of finite type $f:X\to Y$ is called a (local) complete intersection morphism if each point x in X has an open affine neighborhood U so that f |_U factors as $U{\overset {j}\to }V{\overset {g}\to }Y$ where j is a regular embedding and g is smooth.^[3] For example, if f is a morphism between smooth varieties, then f factors as $X\to X\times Y\to Y$ where the first map is the graph morphism and so is a complete intersection morphism.

References

↑ Sernesi, D. Notes 2.
↑ Sernesi, D.1.
↑ Sernesi, D.2.1.

Fulton, William (1998), Intersection theory, Ergebnisse der Mathematik und ihrer Grenzgebiete. 3. Folge. A Series of Modern Surveys in Mathematics [Results in Mathematics and Related Areas. 3rd Series. A Series of Modern Surveys in Mathematics], 2, Berlin, New York: Springer-Verlag, ISBN 978-3-540-62046-4, MR 1644323 , section B.7
E. Sernesi: Deformations of algebraic schemes

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