Calderon-Zygmund theory for strongly coupled linear system of nonlocal equations with Holder-regular coefficient

Abstract

We extend the Calder\'on-Zygmund theory for nonlocal equations to strongly coupled system of linear nonlocal equations LsA u = f, where the operator LsA is formally given by \[ LsAu = ∫RnA(x, y) x-y n+2s (x-y) (x-y) x-y 2(u(x)-u(y))dy. \] For 0 < s < 1 and A:Rn × Rn R taken to be symmetric and serving as a variable coefficient for the operator, the system under consideration is the fractional version of the classical Navier-Lam\'e linearized elasticity system. The study of the coupled system of nonlocal equations is motivated by its appearance in nonlocal mechanics, primarily in peridynamics. Our regularity result states that if A(·, y) is uniformly Holder continuous and ∈fx∈ RnA(x, x) > 0, then for f∈ Lploc, for p≥ 2, the solution vector u∈ H2s-δ,ploc for some δ∈ (0, s).