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Morphism of finite type

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In commutative algebra, given a homomorphism of commutative rings, is called an -algebra of finite type if is a finitely generated as an -algebra. It is much stronger for to be a finite -algebra, which means that is finitely generated as an -module. For example, for any commutative ring and natural number , the polynomial ring is an -algebra of finite type, but it is not a finite -module unless = 0 or = 0. Another example of a finite-type homomorphism that is not finite is .

The analogous notion in terms of schemes is: a morphism of schemes is of finite type if has a covering by affine open subschemes such that has a finite covering by affine open subschemes of with an -algebra of finite type. One also says that is of finite type over .

For example, for any natural number and field , affine -space and projective -space over are of finite type over (that is, over ), while they are not finite over unless = 0. More generally, any quasi-projective scheme over is of finite type over .

The Noether normalization lemma says, in geometric terms, that every affine scheme of finite type over a field has a finite surjective morphism to affine space over , where is the dimension of . Likewise, every projective scheme over a field has a finite surjective morphism to projective space , where is the dimension of .

See also

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References

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Bosch, Siegfried (2013). Algebraic Geometry and Commutative Algebra. London: Springer. pp. 360–365. ISBN 9781447148289.