Projective scheme
A closed subscheme (cf. Scheme) of a projective space . In homogeneous coordinates on , a projective scheme is given by a system of homogeneous algebraic equations
Every projective scheme is complete (compact in the case ); conversely, a complete scheme is projective if there is an ample invertible sheaf (cf. Ample sheaf; Invertible sheaf) on it. There are also other criteria of projectivity.
A generalization of the concept of a projective scheme is a projective morphism. A morphism of schemes is called projective (and is called a scheme projective over ) if is a closed subscheme of the projective fibre bundle , where is a locally free -module. A composite of projective morphisms is projective. The projectivity of a morphism is preserved also under a base change; in particular, the fibres of a projective morphism are projective schemes (but not conversely). If a scheme is projective and is a finite surjective morphism, then is also projective.
Any projective scheme (over ) can be obtained using the construction of the projective spectrum (cf. Projective spectrum of a ring). Restricting to the case of an affine base, , suppose that is a graded -algebra with the -module being of finite type and generating the algebra , and suppose that is the set of homogeneous prime ideals not containing . Equipped with the natural topology and a structure sheaf, the set is a projective -scheme; moreover, any projective -scheme has such a form.
References
[1] | D. Mumford, "Algebraic geometry" , 1. Complex projective varieties , Springer (1976) MR0453732 Zbl 0356.14002 |
Comments
Given a vector bundle over (or, equivalently, a locally free -module ), the associated projective bundle, or projective fibre bundle, has as fibre over the projective space of all one-dimensional subspaces of the vector space .
References
[a1] | R. Hartshorne, "Algebraic geometry" , Springer (1977) pp. 91 MR0463157 Zbl 0367.14001 |
Projective scheme. Encyclopedia of Mathematics. URL: http://encyclopediaofmath.org/index.php?title=Projective_scheme&oldid=38803