Pointwise

In mathematics, a metric connection is a connection in a vector bundle E equipped with a metric for which the inner product of any two vectors will remain the same when those vectors are parallel transported along any curve. Other common equivalent formulations of a metric connection include:

• A connection for which the covariant derivatives of the metric on E vanish.
• A principal connection on the bundle of orthonormal frames of E.

A special case of a metric connection is the Levi-Civita connection. Here the bundle E is the tangent bundle of a manifold. In addition to being a metric connection, the Levi-Civita connection is required to be torsion free.

Riemannian connections

An important special case of a metric connection is a Riemannian connection. This is a connection ${\displaystyle \nabla }$ on the tangent bundle of a pseudo-Riemannian manifold (M, g) such that ${\displaystyle \nabla _{X}g=0}$ for all vector fields X on M. Equivalently, ${\displaystyle \nabla }$ is Riemannian if the parallel transport it defines preserves the metric g.

A given connection ${\displaystyle \nabla }$ is Riemannian if and only if

${\displaystyle Xg(Y,Z)=g(\nabla _{X}Y,Z)+g(Y,\nabla _{X}Z)}$

for all vector fields X, Y and Z on M, where ${\displaystyle Xg(Y,Z)}$ denotes the derivative of the function ${\displaystyle g(Y,Z)}$ along this vector field ${\displaystyle X}$.

The Levi-Civita connection is the torsion-free Riemannian connection on a manifold. It is unique by the fundamental theorem of Riemannian geometry.

External links

• a pdf about this

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