Fine Boundary Regularity For The Fractional (p,q)-Laplacian

Abstract

In this article, we deal with the fine boundary regularity, a weighted H\"older regularity of weak solutions to the problem involving the fractional (p,q) Laplacian denoted by (-)ps u + (-)qs u = f(x) in , and u=0 in RN; where is a C1,1 bounded domain and 2 ≤ p ≤ q <∞. For 0<s<1 and for non-negative data f∈ L∞(), we employ the nonlocal analogue of the boundary Harnack method to establish that u/ds ∈ Cα() for some α ∈ (0,1), where d(x) is the distance of x from the boundary. A novel barrier construction allows us to analyse the regularity theory even in the absence of the scaling or the homogeneity properties of the operator. Additionally, we extend our idea to sign changing bounded f as well and prove a fine boundary regularity for fractional (p,q) Laplacian for some range of s.