Chemistry - Scalar curvature

In Riemannian geometry, the scalar curvature (or Ricci scalar) is the simplest way of describing the curvature of a Riemannian manifold. It assigns to each point on a Riemannian manifold a single real number characterizing the intrinsic curvature of the manifold at that point.

In two dimensions the scalar curvature completely characterizes the curvature of a Riemannian manifold. In dimensions ≥ 3, however, more information is needed. See curvature of Riemannian manifolds for a complete discussion.

The scalar curvature is defined as the trace of the Ricci curvature with respect to the metric:

$S = \mbox{tr}_g\,Ric$

The trace depends on the metric since the Ricci tensor is a (0,2)-valent tensor; one must first contract with the metric to obtain a (1,1)-valent tensor in order take the trace (see musical isomorphisms ). In terms of local coordinates one can write

$S = {R^i}_i = g^{ij}R_{ij}$

where

$Ric = R_{ij}\,dx^i\otimes dx^j$

Categories: Riemannian geometry