The local Calder\'on problem and the determination at the boundary of a complex anisotropic admittivity

Abstract

We address Calder\'on's problem of stably determining the anisotropic complex admittivity σ in a domain ⊂Rn, with n≥3, representing a conducting medium, in terms of a Dirichlet-to-Neumann map locally prescribed on a non-empty portion of the boundary of , ∂. σ is assumed to be of type σ(·)=A(·,a(·)) in , where the one-parameter family of complex-symmetric matrices [λ-1,\:λ] t A(·,\: t) is assumed to be a-priori known and the scalar function a is unknown. We establish Lipschitz and H\"older stability estimates at the boundary for σ and its derivatives of arbitrary order on , respectively, in terms of the local map.