Classification of metric measure spaces and their ends using p-harmonic functions
Nyckelord:
Classification of metric measure spaces, doubling measure, end at infinity, finite p-energy, p-hyperbolic sequence, Liouville theorem, p-harmonic function, Poincaré inequality, p-parabolic, quasiharmonic function, quasiminimizerAbstract
By seeing whether a Liouville type theorem holds for positive, bounded, and/or finite \(p\)-energy \(p\)-harmonic and \(p\)-quasiharmonic functions, we classify proper metric spaces equipped with a locally doubling measure supporting a local \(p\)-Poincaré inequality. Similar classifications have earlier been obtained for Riemann surfaces and Riemannian manifolds. We study the inclusions between these classes of metric measure spaces, and their relationship to the \(p\)-hyperbolicity of the metric space and its ends. In particular, we characterize spaces that carry nonconstant \(p\)-harmonic functions with finite \(p\)-energy as spaces having at least two well-separated \(p\)-hyperbolic sequences of sets towards infinity. We also show that every such space \(X\) has a function \(f \notin L^p(X) + \mathbf{R}\) with finite \(p\)-energy.Referera så här
Björn, A., Björn, J., & Shanmugalingam, N. (2022). Classification of metric measure spaces and their ends using p-harmonic functions. Annales Fennici Mathematici, 47(2), 1025–1052. https://doi.org/10.54330/afm.120618
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