Torsion of a linear connection: Difference between revisions

Revision as of 00:33, 5 April 2008

This article defines a tensor (viz a section on a tensor bundle over the manifold) of type (1,2)

Definition

Given data

A differential manifold $M$
A linear connection $\nabla$ on $M$ (viz., a connection on the tangent bundle $TM$ ).

Definition part

The torsion of $\nabla$ , denoted as $\tau (\nabla )$ , is defined as a map that takes as input 2 vector fields and outputs a third vector field, as follows:

$\tau (\nabla )(X,Y)=\nabla _{Y}X-\nabla _{X}Y-[X,Y]$

A linear connection whose torsion is zero is termed a torsion-free linear connection.

Tensoriality

Further information: Torsion is tensorial The torsion map is a $(1,2)$ tensor. It is tensorial in both $X$ and $Y$ .

@@ Line 12: / Line 12: @@
 The torsion of <math>\nabla</math>, denoted as <math>\tau(\nabla)</math>, is defined as a map that takes as input 2 vector fields and outputs a third vector field, as follows:
-<math>\tau(\nabla)(X,Y) = \nabla_XY - \nabla_YX - [X,Y]</math>
+<math>\tau(\nabla)(X,Y) = \nabla_YX - \nabla_XY - [X,Y]</math>
 A linear connection whose torsion is zero is termed a '''torsion-free linear connection'''.