Functions of bounded fractional variation and fractal currents

Abstract

Extending the notion of bounded variation, a function u ∈ Lc1( Rn) is of bounded fractional variation with respect to some exponent α if there is a finite constant C ≥ 0 such that the estimate \[ |∫ u(x) D(f,g1,…,gn-1)x \, dx| ≤ CLipα(f) Lip(g1) ·s Lip(gn-1) \] holds for all Lipschitz functions f,g1,…,gn-1 on Rn. Among such functions are characteristic functions of domains with fractal boundaries and H\"older continuous functions. We characterize functions of bounded fractional variation as a certain subspace of Whitney's flat chains and as multilinear functionals in the setting of Ambrosio-Kirchheim currents. Consequently we discuss extensions to H\"older differential forms, higher integrability, an isoperimetric inequality, a Lusin type property and change of variables. As an application we obtain sharp integrability results for Brouwer degree functions with respect to H\"older maps defined on domains with fractal boundaries.