nLab universal vector bundle

Redirected from "universal complex vector bundle".
Contents

Context

Bundles

bundles

Cohomology

cohomology

Special and general types

Special notions

Variants

Extra structure

Operations

Theorems

Contents

Idea

In topology a universal vector bundle of some rank nn is a vector bundle ζ nBGL(n)\zeta_n \to B GL(n) (over a base space to be called a classifying space) such that every other vector bundle EXE \to X of rank nn over a suitably nice topological space (paracompact topological space) arises as the pullback bundle Ef *ζ nE \simeq f^\ast \zeta_n of the universal bundle, along some morphism (continuous function) f:XBGL(n)f \colon X \to B GL(n) which is unique up to homotopy:

ζ n EGL(n) (pb) X f BGL(n). \array{ \zeta_n &\longrightarrow& E GL(n) \\ \downarrow &(pb)& \downarrow \\ X &\underset{f}{\longrightarrow}& B GL(n) } \,.

The universal real vector ζ n\zeta_n of rank nn is the vector bundle which is associated to the universal principal bundle EGL(n)BGL(n)E GL(n) \to B GL(n) (with structure group the general linear group) over the given classifying space, equivalently to EO(n)E O(n) \to B O ( n ) B O(n) :

ζ n(EO(n))×O(n) n. \zeta_n \coloneqq (E O(n))\underset{O(n)}{\times} \mathbb{R}^n \,.

Similarly for complex vector bundles for EU(n)E U(n) \to B U ( n ) B U(n) :

ζ n (EU(n))×U(n) 2n. \zeta^{\mathbb{C}}_n \coloneqq (E U(n))\underset{U(n)}{\times} \mathbb{R}^{2n} \,.

etc.

Constructions

Via Grassmannians and Stiefel manifolds

For n,kn, k \in \mathbb{N}, and nkn \leq k, there is the Grassmannian manifold given as the coset topological space

Gr n(k)O(k)/(O(n)×O(kn)). Gr_n(k) \coloneqq O(k)/(O(n)\times O(k-n)) \,.

Similarly, the Stiefel manifold is the coset

V n(k)O(k)/O(n). V_n(k) \coloneqq O(k)/O(n) \,.

The quotient projection

V kn(k)Gr n(k) V_{k-n}(k)\longrightarrow Gr_n(k)

is an O(n)O(n)-principal bundle, with associated bundle V n(k)× O(n) nV_n(k)\times_{O(n)} \mathbb{R}^n a vector bundle of rank nn. In the limit (colimit) that kk \to \infty is this gives a presentation of the O(n)O(n)-universal principal bundle and of the universal vector bundle of rank nn, respectively.. The base space Gr n() wheBO(n)Gr_n(\infty)\simeq_{whe} B O(n) is the classifying space for O(n)O(n)-principal bundles and rank nn vector bundles.

Examples

References

Textbook accounts include

Last revised on May 15, 2024 at 08:38:13. See the history of this page for a list of all contributions to it.