Minimal Surfaces in the Heisenberg Group
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We investigate the minimal surface problem in the three dimensional Heisenberg group, H, equipped with its standard Carnot-Caratheodory metric. Using a particular surface measure, we characterize minimal surfaces in terms of a sub-elliptic partial differential equation and prove an existence result for the Plateau problem in this setting. Further, we provide a link between our minimal surfaces and Riemannian constant mean curvature surfaces in H equipped with different Riemannian metrics approximating the Carnot-Caratheodory metric. We generate a large library of examples of minimal surfaces and use these to show that the solution to the Dirichlet problem need not be unique. Moreover, we show that the minimal surfaces we construct are in fact X-minimal surfaces in the sense of Garofalo and Nhieu.
26 pages, 12 figures
- Rice University United States
- Dartmouth College United States
Differential geometry of immersions (minimal, prescribed curvature, tight, etc.), Mathematics - Differential Geometry, Differential Geometry (math.DG), minimal surface, 53C17, 53C42, 49Q10, Minimal surfaces and optimization, FOS: Mathematics, Subelliptic equations, Carnot-Carathéodory metric, Heisenberg group
Differential geometry of immersions (minimal, prescribed curvature, tight, etc.), Mathematics - Differential Geometry, Differential Geometry (math.DG), minimal surface, 53C17, 53C42, 49Q10, Minimal surfaces and optimization, FOS: Mathematics, Subelliptic equations, Carnot-Carathéodory metric, Heisenberg group
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