Liouville surface

In the mathematical field of differential geometry a Liouville surface^[1] (named after Joseph Liouville) is a type of surface which in local coordinates may be written as a graph in R³

z=f(x,y)

such that the first fundamental form is of the form

ds^{2}={\big (}f_{1}(x)+f_{2}(y){\big )}\left(dx^{2}+dy^{2}\right).

Sometimes a metric of this form is called a Liouville metric. Every surface of revolution is a Liouville surface.

Darboux^[2] gives a general treatment of such surfaces considering a two-dimensional space $(u,v)$ with metric

ds^{2}=(U-V)(U_{1}^{2}\,du^{2}+V_{1}^{2}\,dv^{2}),

where $U$ and $U_{1}$ are functions of $u$ and $V$ and $V_{1}$ are functions of $v$ . A geodesic line on such a surface is given by

{\frac {U_{1}\,du}{\sqrt {U-\alpha }}}-{\frac {V_{1}\,dv}{\sqrt {\alpha -V}}}=0

and the distance along the geodesic is given by

ds={\frac {UU_{1}\,du}{\sqrt {U-\alpha }}}-{\frac {VV_{1}\,dv}{\sqrt {\alpha -V}}}.

Here $\alpha$ is a constant related to the direction of the geodesic by

\alpha =U\sin ^{2}\omega +V\cos ^{2}\omega ,

where $\omega$ is the angle of the geodesic measured from a line of constant $v$ . In this way, the solution of geodesics on Liouville surfaces is reduced to quadrature. This was first demonstrated by Jacobi for the case of geodesics on a triaxial ellipsoid,^[3] a special case of a Liouville surface.

Notes

^ Liouville 1846
^ Darboux 1894, §§583-584
^ Jacobi 1839

References

Darboux, Jean-Gaston (1894). Leçons sur la théorie générale des surfaces [Lessons on the General Theory of Surfaces] (in French). Vol. 3. Gauthier-Villars.
Gelfand, I.M. & Fomin, S.V. (2000). Calculus of variations. Dover. ISBN 0-486-41448-5. (Translated from the Russian by R. Silverman.)
Guggenheimer, Heinrich (1977). "Chapter 11: Inner geometry of surfaces". Differential Geometry. Dover. ISBN 0-486-63433-7.
Jacobi, C. G. J. (1839). "Note von der geodätischen Linie auf einem Ellipsoid und den verschiedenen Anwendungen einer merkwürdigen analytischen Substitution" [The geodesic on an ellipsoid and various applications of a remarkable analytical substitution]. Journal für die Reine und Angewandte Mathematik (in German). 1839 (19): 309–313. doi:10.1515/crll.1839.19.309. S2CID 121670851.
Liouville, Joseph (1846). "Sur quelques cas particuliers où les équations du mouvement d'un point matériel peuvent s'intégrer" [Special cases where the equations of motion are integrable] (PDF). Journal de Mathématiques Pures et Appliquées (in French). 11: 345–378.

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[1] Liouville 1846

[2] Darboux 1894, §§583-584

[3] Jacobi 1839

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