Picard scheme
A natural generalization of the concept of the Picard variety 
for a smooth algebraic variety 
within the framework of the theory of schemes. To define the Picard scheme for an arbitrary 
-scheme 
one considers the relative Picard functor 
in the category 
of schemes over the scheme 
. The value of this functor on an 
-scheme 
is the group
 |
where 
is the base-change morphism and 
is the sheaf in the Grothendieck topology 
of strictly-flat quasi-compact morphisms associated with the pre-sheaf
 |
and 
denotes the standard multiplicative group sheaf. If the Picard functor 
is representable on 
, then the 
-scheme representing it is called the relative Picard scheme for the 
-scheme 
and is denoted by 
. If 
is an algebraic scheme over a certain field 
having a rational 
-point, then
 |
for any 
-scheme 
[3]. In particular, 
can be identified with the group of 
-rational points 
of 
if such exists.
If 
is a projective morphism with geometrically-integral fibres, then the scheme 
exists and is a locally finitely representable separable group 
-scheme. If 
, then the connected component of the unit, 
, of 
is an algebraic 
-scheme, and the corresponding reduced 
-scheme 
is precisely the Picard variety 
[4]. The nilpotent elements in the local rings of the scheme 
give much additional information on the Picard scheme and enable one to explain various "pathologies" in algebraic geometry over a field of characteristic 
. On the other hand, over a field of characteristic 0 the scheme 
is always reduced [6]. It is also known that 
is a reduced scheme if 
is a smooth algebraic surface and 
[5].
For any proper flat morphism 
(finitely representable if the base 
is Noetherian) for which 
, the functor 
is an algebraic space over 
for any base-change morphism 
[1]. In particular, the functor 
is representable if the ground scheme 
is the spectrum of a local Artinian ring.
References
| [1] | M. Artin, "Algebraization of formal moduli I" D.C. Spencer (ed.) S. Iyanaga (ed.) , Global analysis (papers in honor of K. Kodaira) , Univ. Tokyo Press (1969) pp. 21–72 |
| [2] | C. Chevalley, "Sur la théorie de la variété de Picard" Amer. J. Math. , 82 (1960) pp. 435–490 |
| [3] | A. Grothendieck, "Technique de déscente et théorèmes d'existence en géometrie algébrique. V. Les schémas de Picard. Théorèmes d'existence" Sém. Bourbaki , 14 (1962) pp. 232/01–232/19 |
| [4] | A. Grothendieck, "Eléments de géomètrie algébrique. I Le langage des schémas" Publ. Math. IHES : 4 (1960) pp. 1–228 |
| [5] | D. Mumford, "Lectures on curves on an algebraic surface" , Princeton Univ. Press (1966) |
| [6] | F. Oort, "Algebraic group schemes in character zero are reduced" Invent. Math. , 2 : 1 (1966) pp. 79–80 |
| [7] | I.V Dolgachev, "Abstract algebraic geometry" J. Soviet Math. , 2 : 3 (1974) pp. 264–303 Itogi Nauk. i Tekhn. Algebra. Topol. Geom. , 10 (1972) pp. 47–112 |
Comments
The standard multiplicative sheaf over a scheme 
assigns to an affine open set 
in 
the group 
of units of 
.
References
| [a1] | A. Grothendieck, "Fondements de la géométrie algébrique" , Secr. Math. Univ. Paris (1961/62) (Extracts Sem. Bourbaki 1957–1962) |
| [a2] | A. Altman, S. Kleiman, "Compactification of the Picard scheme I" Adv. in Math. , 35 (1980) pp. 50–112 |
| [a3] | A. Altman, S. Kleiman, "Compactification of the Picard scheme II" Amer. J. Math. , 101 (1979) pp. 10–41 |
| [a4] | J.P. Murre, "On contravariant functors from the category of preschemes over a field into the category of abelian groups (with an application to the Picard functor)" Publ. Math. IHES , 23 (1964) pp. 581–619 |
| [a5] | F. Oort, "Sur le schéma de Picard" Bull. Soc. Math. France , 90 (1962) pp. 1–14 |
Picard scheme. Encyclopedia of Mathematics. URL: http://encyclopediaofmath.org/index.php?title=Picard_scheme&oldid=21908