Extension Theorem and Bourgain--Brezis--Mironescu-Type Characterization of Ball Banach Sobolev Spaces on Domains

Abstract

Let ⊂Rn be a bounded (,∞)-domain with ∈(0,1], X(Rn) a ball Banach function space satisfying some extra mild assumptions, and \\∈(0,0) with 0∈(0,∞) a 0-radial decreasing approximation of the identity on Rn. In this article, the authors establish two extension theorems, respectively, on the inhomogeneous ball Banach Sobolev space Wm,X() and the homogeneous ball Banach Sobolev space Wm,X() for any m∈N. On the other hand, the authors prove that, for any f∈W1,X(), 0+ \|[∫|f(·)-f(y)|p |·-y|p(|·-y|)\,dy ]1p\|X()p =2πn-12 (p+12)(p+n2) \|\,|∇ f|\,\|X()p, where is the Gamma function and p∈[1,∞) is related to X(Rn). Using this asymptotics, the authors further establish a characterization of W1,X() in terms of the above limit. To achieve these, the authors develop a machinery via using a method of the extrapolation, two extension theorems on weighted Sobolev spaces, and some recently found profound properties of W1,X(Rn) to overcome those difficulties caused by that the norm of X(Rn) has no explicit expression and that X(Rn) might be neither the reflection invariance nor the translation invariance. This characterization has a wide range of generality and can be applied to various Sobolev-type spaces, such as Morrey [Bourgain--Morrey-type, weighted (or mixed-norm or variable), local (or global) generalized Herz, Lorentz, and Orlicz (or Orlicz-slice)] Sobolev spaces, all of which are new.