Plateau's problem

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In mathematics, Plateau's problem is to show the existence of a minimal surface with a given boundary. It is named after Joseph Plateau, who was interested in soap films, but was raised by Joseph-Louis Lagrange in 1760. The problem is considered part of the calculus of variations.

Various specialized forms of the problem were solved, but it was only in 1930 that general solutions were found independently by Jesse Douglas and Tibor Rado. Their methods were quite different; Rado's work built on the previous work of Garnier and held only for rectifiable simple closed curves, whereas Douglas used completely new ideas with his result holding for an arbitrary simple closed curve. Both relied on setting up minimization problems; Douglas minimized the now-named Douglas integral while Rado minimized the "energy". Douglas went on to be awarded the Fields medal in 1936 for his efforts.

The extension of the problem to higher dimensions (that is, for k-dimensional surfaces in n-dimensional space) turns out to be much more difficult to study. Moreover, while the solutions to the original problem are always regular, it turns out that the solutions to the extended problem may have singularities if k\le n-2. In the hypersurface case where k = n − 1, singularities occur only for n\ge 8.

To solve the extended problem, the theory of perimeters (De Giorgi) for boundaries and the theory of rectifiable currents (Federer and Fleming) have been developed.

[edit] See also

[edit] References

  • Douglas, Jesse (1931). "Solution of the problem of Plateau". Trans. Amer. Math. Soc. 33 (1): 263–321. 
  • Radó, Tibor (1930). "On Plateau's problem". Ann. of Math. (2) 31: 457–469. 
  • T.C O'Neil, "Geometric Measure Theory" SpringerLink Encyclopaedia of Mathematics (2001)

This article incorporates material from Plateau's Problem on PlanetMath, which is licensed under the GFDL.

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