Locally free sheaf
A sheaf of modules that is locally isomorphic to the direct sum of several copies of the structure sheaf. More precisely, let $ ( X , {\mathcal O} _ {X} ) $
be a ringed space. A sheaf of modules $ {\mathcal F} $
over $ {\mathcal O} _ {X} $
is said to be locally free if for every point $ x \in X $
there is an open neighbourhood $ U \subset X $,
$ x \in U $,
such that the restriction $ {\mathcal F} \mid _ {U} $
of $ {\mathcal F} $
to $ U $
is a free sheaf of modules over $ {\mathcal O} _ {X } \mid _ {U } $,
that is, it is isomorphic to the direct sum of a set $ I ( x) $
of copies of the structure sheaf $ {\mathcal O} _ {X} \mid _ {U } $.
If $ X $
is connected and $ I ( x) $
is finite, for example consisting of $ n $
elements, then $ n $
does not depend on the point $ x $
and is called the rank of the locally free sheaf $ {\mathcal F} $.
Let $ V $
be a vector bundle of rank $ n $
on $ X $
and let $ {\mathcal F} $
be the sheaf of germs of its sections. Then $ {\mathcal F} $
is a locally free sheaf of rank $ n $.
Conversely, for every locally free sheaf $ {\mathcal F} $
of rank $ n $
there is a vector bundle $ V $
of rank $ n $
on $ X $
such that $ {\mathcal F} $
is the sheaf of germs of its sections (see [1], [2]); hence there is a natural one-to-one correspondence between the isomorphy classes of locally free sheaves of rank $ n $
and the isomorphy classes of vector bundles of rank $ n $
on $ X $.
Example. Let $ X $ be a smooth connected algebraic variety of dimension $ n $. Then the sheaf of regular differential forms $ \Omega _ {X} ^ {1} $ is a locally free sheaf of rank $ n $.
Let $ X = \mathop{\rm Spec} A $, a connected affine scheme, be the spectrum of the commutative ring $ A $( cf. Spectrum of a ring), let $ {\mathcal F} $ be a locally free sheaf of rank $ n $ and let $ M = \Gamma ( X , {\mathcal F} ) $ be the $ A $- module of its global sections. Then the $ A $- module $ M $ is projective and the mapping $ {\mathcal F} \mapsto \Gamma ( X , {\mathcal F} ) $ establishes a one-to-one correspondence between the set of classes (up to isomorphisms) of locally free sheaves of rank $ n $ and the set of classes (up to isomorphisms) of projective $ A $- modules of rank $ n $( see [2]).
References
[1] | R. Godement, "Topologie algébrique et théorie des faisceaux" , Hermann (1958) MR0102797 Zbl 0080.16201 |
[2] | R. Hartshorne, "Algebraic geometry" , Springer (1977) MR0463157 Zbl 0367.14001 |
Locally free sheaf. Encyclopedia of Mathematics. URL: http://encyclopediaofmath.org/index.php?title=Locally_free_sheaf&oldid=23891