Birkhoff–Grothendieck Theorem
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In
mathematics Mathematics is an area of knowledge that includes the topics of numbers, formulas and related structures, shapes and the spaces in which they are contained, and quantities and their changes. These topics are represented in modern mathematics ...
, the Birkhoff–Grothendieck theorem classifies
holomorphic In mathematics, a holomorphic function is a complex-valued function of one or more complex variables that is complex differentiable in a neighbourhood of each point in a domain in complex coordinate space . The existence of a complex derivativ ...
vector bundle In mathematics, a vector bundle is a topological construction that makes precise the idea of a family of vector spaces parameterized by another space X (for example X could be a topological space, a manifold, or an algebraic variety): to every po ...
s over the complex
projective line In mathematics, a projective line is, roughly speaking, the extension of a usual line by a point called a ''point at infinity''. The statement and the proof of many theorems of geometry are simplified by the resultant elimination of special cases; ...
. In particular every holomorphic vector bundle over \mathbb^1 is a direct sum of holomorphic
line bundle In mathematics, a line bundle expresses the concept of a line that varies from point to point of a space. For example, a curve in the plane having a tangent line at each point determines a varying line: the ''tangent bundle'' is a way of organisin ...
s. The theorem was proved by , and is more or less equivalent to
Birkhoff factorization In mathematics, Birkhoff factorization or Birkhoff decomposition, introduced by , is the factorization of an invertible matrix ''M'' with coefficients that are Laurent polynomials in ''z'' into a product ''M'' = ''M''+''M''0''M''−, w ...
introduced by .


Statement

More precisely, the statement of the theorem is as the following. Every
holomorphic vector bundle In mathematics, a holomorphic vector bundle is a complex vector bundle over a complex manifold such that the total space is a complex manifold and the projection map is holomorphic. Fundamental examples are the holomorphic tangent bundle of a ...
\mathcal on \mathbb^1 is holomorphically isomorphic to a direct sum of line bundles: : \mathcal\cong\mathcal(a_1)\oplus \cdots \oplus \mathcal(a_n). The notation implies each summand is a
Serre twist In mathematics, the tautological bundle is a vector bundle occurring over a Grassmannian in a natural tautological way: for a Grassmannian of k-dimensional subspaces of V, given a point in the Grassmannian corresponding to a k-dimensional vector s ...
some number of times of the
trivial bundle In mathematics, and particularly topology, a fiber bundle (or, in Commonwealth English: fibre bundle) is a space that is a product space, but may have a different topological structure. Specifically, the similarity between a space E and a p ...
. The representation is unique up to permuting factors.


Generalization

The same result holds in algebraic geometry for
algebraic vector bundle In mathematics, especially in algebraic geometry and the theory of complex manifolds, coherent sheaves are a class of Sheaf (mathematics), sheaves closely linked to the geometric properties of the underlying space. The definition of coherent sheave ...
over \mathbb^1_k for any field k. It also holds for \mathbb^1 with one or two orbifold points, and for chains of projective lines meeting along nodes.


Applications

One application of this theorem is it gives a classification of all coherent sheaves on \mathbb^1. We have two cases, vector bundles and coherent sheaves supported along a subvariety, so \mathcal(k), \mathcal_ where n is the degree of the fat point at x \in \mathbb^1. Since the only subvarieties are points, we have a complete classification of coherent sheaves.


See also

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Algebraic geometry of projective spaces Projective space plays a central role in algebraic geometry. The aim of this article is to define the notion in terms of abstract algebraic geometry and to describe some basic uses of projective space. Homogeneous polynomial ideals Let k be an al ...
*
Euler sequence In mathematics, the Euler sequence is a particular exact sequence of sheaves on ''n''-dimensional projective space over a ring. It shows that the sheaf of relative differentials is stably isomorphic to an (n+1)-fold sum of the dual of the Serre ...
*
Splitting principle In mathematics, the splitting principle is a technique used to reduce questions about vector bundles to the case of line bundles. In the theory of vector bundles, one often wishes to simplify computations, say of Chern classes. Often computation ...
*
K-theory In mathematics, K-theory is, roughly speaking, the study of a ring generated by vector bundles over a topological space or scheme. In algebraic topology, it is a cohomology theory known as topological K-theory. In algebra and algebraic geometry, ...
* Jumping line


References


Further reading

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External links

* Roman Bezrukavnikov. 18.72
Algebraic GeometryLEC # 24 Birkhoff–Grothendieck, Riemann-Roch, Serre Duality
Fall 2015. Massachusetts Institute of Technology: MIT OpenCourseWare Creative Commons
BY-NC-SA A Creative Commons (CC) license is one of several public copyright licenses that enable the free distribution of an otherwise copyrighted "work".A "work" is any creative material made by a person. A painting, a graphic, a book, a song/lyrics ...
. Vector bundles Theorems in projective geometry Theorems in algebraic geometry Theorems in complex geometry {{topology-stub