The Hasse Principle for Geometric Variational Problems: An Illustration via Area-minimizing Submanifolds
Abstract: The Hasse principle in number theory states that information about integral solutions to Diophantine equations can be pieced together from real solutions and solutions modulo prime powers. We show that the Hasse principle holds for area-minimizing submanifolds: information about area-minimizing submanifolds in integral homology can be fully recovered from those in real homology and mod $n$ homology for all $n\in \mathbb{Z}_{\ge 2}.$ As a consequence we derive several surprising conclusions, including: area-minimizing submanifolds in mod $n$ homology are asymptotically much smoother than expected and area-minimizing submanifolds are not generically calibrated. We conjecture that the Hasse principle holds for all geometric variational problems that can be formulated on chain space over different coeffiicients, e.g., Almgren-Pitts min-max, mean curvature flow, Song's spherical Plateau problem, minimizers of elliptic and other general functionals, etc.
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