Fractional Besov Trace/Extension Type Inequalities via the Caffarelli-Silvestre extension

Abstract

Let u(·,·) be the Caffarelli-Silvestre extension of f. The first goal of this article is to establish the fractional trace type inequalities involving the Caffarelli-Silvestre extension u(·,·) of f. In doing so, firstly, we establish the fractional Sobolev/ logarithmic Sobolev/ Hardy trace inequalities in terms of ∇(x,t)u(x,t). Then, we prove the fractional anisotropic Sobolev/ logarithmic Sobolev/ Hardy trace inequalities in terms of ∂t u(x,t) or (-)-γ/2u(x,t) only. Moreover, based on an estimate of the Fourier transform of the Caffarelli-Silvestre extension kernel and the sharp affine weighted Lp Sobolev inequality, we prove that the H-β/2(Rn) norm of f(x) can be controlled by the product of the weighted Lp-affine energy and the weighted Lp-norm of ∂t u(x,t). The second goal of this article is to characterize non-negative measures μ on Rn+1+ such that the embeddings \|u(·,·)\|Lq0,p0μ(Rn+1) \|f\|p,qβ(Rn) hold for some p0 and q0 depending on p and q which are classified in three different cases: (1). p=q∈ (n/(n+β),1]; (2) (p,q)∈ (1,n/β)× (1,∞); (3). (p,q)∈ (1,n/β)×\∞\. For case (1), the embeddings can be characterized in terms of an analytic condition of the variational capacity minimizing function, the iso-capacitary inequality of open balls, and other weak type inequalities. For cases (2) and (3), the embeddings are characterized by the iso-capacitary inequality for fractonal Besov capacity of open sets.