Picard group
A group of classes of invertible sheaves (or line bundles). More precisely, let 
be a ringed space. A sheaf of 
-modules 
is called invertible if it is locally isomorphic to the structure sheaf 
. The set of classes of isomorphic invertible sheaves on 
is denoted by 
. The tensor product 
defines an operation on the set 
, making it an Abelian group called the Picard group of 
. The group 
is naturally isomorphic to the cohomology group 
, where 
is the sheaf of invertible elements in 
.
For a commutative ring 
, the Picard group 
is the group of classes of invertible 
-modules; 
. For a Krull ring, the group 
is closely related to the divisor class group for this ring.
The Picard group of a complete normal algebraic variety 
has a natural algebraic structure (see Picard scheme). The reduced connected component of the zero of 
is denoted by 
and is called the Picard variety for 
; it is an algebraic group (an Abelian variety if 
is a complete non-singular variety). The quotient group 
is called the Néron–Severi group and it has a finite number of generators; its rank is called the Picard number. In the complex case, where 
is a smooth projective variety over 
, the group 
is isomorphic to the quotient group of the space 
of holomorphic 
-forms on 
by the lattice 
.
References
| [1] | D. Mumford, "Lectures on curves on an algebraic surface" , Princeton Univ. Press (1966) MR0209285 Zbl 0187.42701 |
Comments
References
| [a1] | R. Hartshorne, "Algebraic geometry" , Springer (1977) pp. 91 MR0463157 Zbl 0367.14001 |
Picard group. Encyclopedia of Mathematics. URL: http://encyclopediaofmath.org/index.php?title=Picard_group&oldid=17920