UDP-2,3-diacylglucosamine diphosphatase

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Let YX, be an affine bundle modelled over a vector bundle YX. A connection Γ on YX is called the affine connection if it as a section Γ:YJ1Y of the jet bundle J1YY of Y is an affine bundle morphism over X. In particular, this is the case of an affine connection on the tangent bundle TX of a smooth manifold X.

With respect to affine bundle coordinates (xλ,yi) on Y, an affine connection Γ on YX is given by the tangent-valued connection form

Γ=dxλ(λ+Γλii),Γλi=Γλij(xν)yj+σλi(xν).

An affine bundle is a fiber bundle with a general affine structure group GA(m,) of affine transformations of its typical fiber V of dimension m. Therefore, an affine connection is associated to a principal connection. It always exists.

For any affine connection Γ:YJ1Y, the corresponding linear derivative Γ:YJ1Y of an affine morphism Γ defines a unique linear connection on a vector bundle YX. With respect to linear bundle coordinates (xλ,yi) on Y, this connection reads

Γ=dxλ(λ+Γλij(xν)yji).

Since every vector bundle is an affine bundle, any linear connection on a vector bundle also is an affine connection.

If YX is a vector bundle, both an affine connection Γ and an associated linear connection Γ are connections on the same vector bundle YX, and their difference is a basic soldering form on σ=σλi(xν)dxλi. Thus, every affine connection on a vector bundle YX is a sum of a linear connection and a basic soldering form on YX.

It should be noted that, due to the canonical vertical splitting VY=Y×Y, this soldering form is brought into a vector-valued form σ=σλi(xν)dxλei where ei is a fiber basis for Y.

Given an affine connection Γ on a vector bundle YX, let R and R be the curvatures of a connection Γ and the associated linear connection Γ, respectively. It is readily observed that R=R+T, where

T=12Tλμidxλdxμi,Tλμi=λσμiμσλi+σλhΓμihσμhΓλih,

is the torsion of Γ with respect to the basic soldering form σ.

In particular, let us consider the tangent bundle TX of a manifold X coordinated by (xμ,x˙μ). There is the canonical soldering form θ=dxμ˙μ on TX which coincides with the tautological one-form θX=dxμμ on X due to the canonical vertical splitting VTX=TX×TX. Given an arbitrary linear connection Γ on TX, the corresponding affine connection

A=Γ+θ,Aλμ=Γλμνx˙ν+δλμ,

on TX is the Cartan connection. The torsion of the Cartan connection A with respect to the soldering form θ coincides with the torsion of a linear connection Γ, and its curvature is a sum R+T of the curvature and the torsion of Γ.

References

  • S. Kobayashi, K. Nomizu, Foundations of Differential Geometry, Vols. 1 & 2, Wiley-Interscience, 1996, ISBN 0-471-15733-3.
  • Sardanashvily, G., Advanced Differential Geometry for Theoreticians. Fiber bundles, jet manifolds and Lagrangian theor, Lambert Academic Publishing, 2013, ISBN 978-3-659-37815-7; arXiv: 0908.1886.

See also