The Calder\'on problem for space-time fractional parabolic operators with variable coefficients

Abstract

We study an inverse problem for variable coefficient fractional parabolic operators of the form (∂t -div(A(x) ∇x)s + q(x,t) for s∈(0,1) and show the unique recovery of q from exterior measured data. Similar to the fractional elliptic case, we use Runge type approximation argument which is obtained via a global weak unique continuation property. The proof of such a unique continuation result involves a new Carleman estimate for the associated variable coefficient extension operator. In the latter part of the work, we prove analogous unique determination results for fractional parabolic operators with drift.

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