Abstract
AbstractWe investigate basic properties of mappings of finite distortion$$f:X \rightarrow \mathbb {R}^2$$ f : X → R 2 , where X is any metric surface, i.e., metric space homeomorphic to a planar domain with locally finite 2-dimensional Hausdorff measure. We introduce lower gradients, which complement the upper gradients of Heinonen and Koskela, to study the distortion of non-homeomorphic maps on metric spaces. We extend the Iwaniec-Šverák theorem to metric surfaces: a non-constant $$f:X \rightarrow \mathbb {R}^2$$ f : X → R 2 with locally square integrable upper gradient and locally integrable distortion is continuous, open and discrete. We also extend the Hencl-Koskela theorem by showing that if f is moreover injective then $$f^{-1}$$ f - 1 is a Sobolev map.
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