Ricci-flat metric: Difference between revisions

Revision as of 19:42, 22 May 2007

This article defines a property that makes sense for a Riemannian metric over a differential manifold

This property of a Riemannian metric is Ricci flow-preserved, that is, it is preserved under the forward Ricci flow

This is the property of the following curvature being everywhere zero: Ricci curvature

Definition

Symbol-free definition

A Riemannian metric on a differential manifold is said to be Ricci-flat if the Ricci curvature is zero at all points.

Definition with symbols

Let $(M,g)$ be a Riemannian manifold. Then $g$ is termed a Ricci-flat metric if $R_{ij}(g)=0$ at all points.

Relation with other properties

Stronger properties

Flat metric

Weaker properties

Metaproperties

Template:DP-closed Riemannian metric property

Given two Riemannian manifolds $(M,g_{1})$ and $(N,g_{2})$ , such that both $g_{1}$ and $g_{2}$ are Ricci-flat, the natural induced metric on $M\times N$ is also Ricci-flat.

@@ Line 24: / Line 24: @@
 * [[Einstein metric]]
+* [[Constant-scalar curvature metric]]
+* [[Zero-scalar curvature metric]]
+==Metaproperties==
+{{DP-closed Riemannian metric property}}
+Given two Riemannian manifolds <math>(M,g_1)</math> and <math>(N,g_2)</math>, such that both <math>g_1</math> and <math>g_2</math> are Ricci-flat, the natural induced metric on <math>M \times N</math> is also Ricci-flat.