Abstract
In contrast with the three-dimensional case (cf. Montezuma in Bull Braz Math Soc), where rotationally symmetric totally geodesic free boundary minimal surfaces have Morse index one; we prove in this work that the Morse index of a free boundary rotationally symmetric totally geodesic hypersurface of the n-dimensional Riemannnian Schwarzschild space with respect to variations that are tangential along the horizon is zero, for \(n\ge 4\). Moreover, we show that there exist non-compact free boundary minimal hypersurfaces which are not totally geodesic, \(n\ge 8\), with Morse index equal to 0. In addition, it is shown that, for \(n\ge 4\), there exist infinitely many non-compact free boundary minimal hypersurfaces, which are not congruent to each other, with infinite Morse index. We also study the density at infinity of a free boundary minimal hypersurface with respect to a minimal cone constructed over a minimal hypersurface of the unit Euclidean sphere. We obtain a lower bound for the density in terms of the area of the boundary of the hypersurface and the area of the minimal hypersurface in the unit sphere. This lower bound is optimal in the sense that only minimal cones achieve it.
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The first author, Ezequiel Barbosa, is partially supported by Brazilian CNPq (Grant 312598/2018-1). The second author, José M. Espinar, is partially supported by Spanish MEC-FEDER (Grant MTM2016-80313-P and Grant RyC-2016-19359) and Junta de Andalucía PAIDI (Grant P18-FR-4049)
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Barbosa, E., Espinar, J.M. ON Free Boundary Minimal Hypersurfaces in the Riemannian Schwarzschild Space. J Geom Anal 31, 12548–12567 (2021). https://doi.org/10.1007/s12220-021-00727-9
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DOI: https://doi.org/10.1007/s12220-021-00727-9
Keywords
- Minimal hypersurfaces
- Morse index
- Simons’ cones
- Riemannian Schwarzschild manifold
- Stable free boundary minimal hypersurfaces