Lie algebra bundle

In mathematics, a weak Lie algebra bundle

is a vector bundle over a base space X together with a morphism

which induces a Lie algebra structure on each fibre .

A Lie algebra bundle is a vector bundle in which each fibre is a Lie algebra and for every x in X, there is an open set containing x, a Lie algebra L and a homeomorphism

such that

is a Lie algebra isomorphism.

Any Lie algebra bundle is a weak Lie algebra bundle, but the converse need not be true in general.

As an example of a weak Lie algebra bundle that is not a strong Lie algebra bundle, consider the total space over the real line . Let [.,.] denote the Lie bracket of and deform it by the real parameter as:

for and .

Lie's third theorem states that every bundle of Lie algebras can locally be integrated to a bundle of Lie groups. However globally the total space might fail to be Hausdorff.[1]

References

  1. A. Weinstein, A.C. da Silva: Geometric models for noncommutative algebras, 1999 Berkley LNM, online readable at , in particular chapter 16.3.

See also

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