
arXiv: math/0309340
In this paper we obtain the general solution to the minimal surface equation, namely its local Weierstrass-Enneper representation, by using a system of hodographic coordinates. This is done by using the method of solving the Born-Infeld equations by Whitham. We directly compute conformal coordinates on the minimal surface which give the Weierstrass-Enneper representation. From this we derive the hodographic coordinate $ρ\in D \subset {\CC}$ and $σ$ its complex conjugate which enables us to write the Weierstrass-Enneper representation in a new way.
5-pages, semi-expository article, published in Proceedings of the Indian Academy of Sciences, 2003 (an electronic journal)
Weierstrass-Enneper representation, Mathematics - Differential Geometry, Mathematics - Analysis of PDEs, Differential Geometry (math.DG), FOS: Mathematics, Minimal surfaces in differential geometry, surfaces with prescribed mean curvature, hodographic coordinates, Analysis of PDEs (math.AP)
Weierstrass-Enneper representation, Mathematics - Differential Geometry, Mathematics - Analysis of PDEs, Differential Geometry (math.DG), FOS: Mathematics, Minimal surfaces in differential geometry, surfaces with prescribed mean curvature, hodographic coordinates, Analysis of PDEs (math.AP)
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