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Interpolation properties of Besov spaces defined on metric spaces

Nageswari ShanmugalingamAmiran GogatishviliPekka Koskela

subject

Pure mathematicsGeneral Mathematics010102 general mathematicsMathematical analysisSpace (mathematics)01 natural sciencesMeasure (mathematics)Infimum and supremum010101 applied mathematicsSobolev spaceMetric spaceMetric (mathematics)Interpolation spaceBesov space0101 mathematicsMathematics

description

Let X = (X, d, μ)be a doubling metric measure space. For 0 < α < 1, 1 ≤p, q < ∞, we define semi-norms When q = ∞ the usual change from integral to supremum is made in the definition. The Besov space Bp, qα (X) is the set of those functions f in Llocp(X) for which the semi-norm ‖f ‖ is finite. We will show that if a doubling metric measure space (X, d, μ) supports a (1, p)-Poincare inequality, then the Besov space Bp, qα (X) coincides with the real interpolation space (Lp (X), KS1, p(X))α, q, where KS1, p(X) is the Sobolev space defined by Korevaar and Schoen [15]. This results in (sharp) imbedding theorems. We further show that our definition of a Besov space is equivalent with the definition given by Bourdon and Pajot [3], and establish a trace theorem (© 2010 WILEY-VCH Verlag GmbH & Co. KGaA, Weinheim)

yearjournalcountryeditionlanguage
2010-01-29Mathematische Nachrichten
https://doi.org/10.1002/mana.200810242