Liouville's equation


In differential geometry, Liouville's equation, named after Joseph Liouville, is the nonlinear partial differential equation satisfied by the conformal factor of a metric on a surface of constant Gaussian curvature :
where is the flat Laplace operator
Liouville's equation appears in the study of isothermal coordinates in differential geometry: the independent variables are the coordinates, while can be described as the conformal factor with respect to the flat metric. Occasionally it is the square that is referred to as the conformal factor, instead of itself.
Liouville's equation was also taken as an example by David Hilbert in the formulation of his nineteenth problem.

Other common forms of Liouville's equation

By using the change of variables, another commonly found form of Liouville's equation is obtained:
Other two forms of the equation, commonly found in the literature, are obtained by using the slight variant of the previous change of variables and Wirtinger calculus:
Note that it is exactly in the first one of the preceding two forms that Liouville's equation was cited by David Hilbert in the formulation of his nineteenth problem.

A formulation using the Laplace–Beltrami operator

In a more invariant fashion, the equation can be written in terms of the intrinsic Laplace–Beltrami operator
as follows:

Properties

Relation to Gauss–Codazzi equations

Liouville's equation is a consequence of the Gauss–Codazzi equations when the metric is written in isothermal coordinates.

General solution of the equation

In a simply connected domain, the general solution of Liouville's equation can be found by using Wirtinger calculus. Its form is given by
where is any meromorphic function such that
Liouville's equation can be used to prove the following classification results for surfaces:
. A surface in the Euclidean 3-space with metric, and with constant scalar curvature is locally isometric to:
  1. the sphere if ;
  2. the Euclidean plane if ;
  3. the Lobachevskian plane if.

    Citations

Works cited