We consider codimension 1 area-minimizing m-dimensional currents T mod an even integer p=2Q in a C2 Riemannian submanifold Σ of Euclidean space. We prove a suitable excess-decay estimate towards the unique tangent cone at every point q∈spt(T)∖sptp(∂T) where at least one such tangent cone is Q copies of a single plane. While an analogous decay statement was proved in Minter and Wickramasekera (2024) as a corollary of a more general theory for stable varifolds, in our statement we strive for the optimal dependence of the estimates upon the second fundamental form of Σ. This improvement is in fact crucial in De Lellis et al., (2022) to prove that the singular set of T can be decomposed into a C1,α (m−1)-dimensional submanifold and an additional closed remaining set of Hausdorff dimension at most m−2.
Excess decay for minimizing hypercurrents mod 2Q / De Lellis, C.; Hirsch, J.; Marchese, A.; Spolaor, L.; Stuvard, S.. - In: NONLINEAR ANALYSIS. - ISSN 0362-546X. - 247:(2024). [10.1016/j.na.2024.113606]
Excess decay for minimizing hypercurrents mod 2Q
Marchese A.;Spolaor L.;Stuvard S.
2024-01-01
Abstract
We consider codimension 1 area-minimizing m-dimensional currents T mod an even integer p=2Q in a C2 Riemannian submanifold Σ of Euclidean space. We prove a suitable excess-decay estimate towards the unique tangent cone at every point q∈spt(T)∖sptp(∂T) where at least one such tangent cone is Q copies of a single plane. While an analogous decay statement was proved in Minter and Wickramasekera (2024) as a corollary of a more general theory for stable varifolds, in our statement we strive for the optimal dependence of the estimates upon the second fundamental form of Σ. This improvement is in fact crucial in De Lellis et al., (2022) to prove that the singular set of T can be decomposed into a C1,α (m−1)-dimensional submanifold and an additional closed remaining set of Hausdorff dimension at most m−2.I documenti in IRIS sono protetti da copyright e tutti i diritti sono riservati, salvo diversa indicazione
