Flat connection: Difference between revisions

Template:Connection property

Definition

Symbol-free definition

A connection on a vector bundle over a differential manifold is said to be flat or integrable or curvature-free or locally flat if the curvature of the connection is zero everywhere.

Definition with symbols

A connection ${\displaystyle \nabla }$ on a vector bundle ${\displaystyle E}$ over a differential manifold ${\displaystyle M}$ is said to be flat or integrable or curvature-free or locally flat if the curvature form vanishes identically, viz for any vector fields ${\displaystyle X}$ and ${\displaystyle Y}$:

${\displaystyle R(X,Y)=\nabla _{X}\nabla _{Y}-\nabla _{Y}\nabla _{X}-\nabla _{[X,Y]}=0}$

Definition in local coordinates

In local coordinates, we require that the curvature matrix should vanish identically; in other words:

${\displaystyle \Omega :=d\omega +\omega \wedge \omega =0}$

where ${\displaystyle \omega }$ is the matrix of connection forms.

Alternative definitions

Further information: Flat connection equals module structure over differential operators

Recall that one alternative view of a connection is as giving the space of sections ${\displaystyle \Gamma (E)}$ the structure of a module over the connection algebra of ${\displaystyle M}$. Equivalently, it is a way of giving the sheaf of sections ${\displaystyle {\mathcal {E}}}$ the structure of a sheaf-theoretic module over the sheaf of connection algebras.

The connection is flat if and only if this descends to a module structure over the sheaf of differential operators. In other words, a flat connection is equivalent to a structure of ${\displaystyle {\mathcal {E}}}$ as a module over the sheaf of differential operators.