Differentiability of the nonlocal-to-local transition in fractional Poisson problems

Abstract

Let us denote a solution of the fractional Poisson problem (-)s us = f in , us=0 on RN , where N≥ 2 and ⊂ RN is a bounded domain of class C2. We show that the solution mapping s us is differentiable in L∞() at s=1, namely, at the nonlocal-to-local transition. Moreover, using the logarithmic Laplacian, we characterize the derivative ∂s us as the solution to a boundary value problem. This complements the previously known differentiability results for s in the open interval (0,1). Our proofs are based on an asymptotic analysis to describe the collapse of the nonlocality of the fractional Laplacian as s approaches 1. We also provide a new representation of ∂s us for s ∈ (0,1) which allows us to refine previously obtained Green function estimates.

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