A multidimensional Borg-Levinson theorem for magnetic Schr\"odinger operators with partial spectral data

Abstract

We consider the multidimensional Borg-Levinson theorem of determining both the magnetic field dA and the electric potential V, appearing in the Dirichlet realization of the magnetic Schr\"odinger operator H=(- i∇+A)2+V on a bounded domain ⊂ Rn, n≥2, from partial knowledge of the boundary spectral data of H. The full boundary spectral data are given by the set \(λk,∂ φk|∂):\ k≥1\, where \ λk:\ k∈ N* \ is the non-decreasing sequence of eigenvalues of H, \ φk:\ k∈ N* \ an associated Hilbertian basis of eigenfunctions and is the unit outward normal vector to ∂. We prove that some asymptotic knowledge of (λk,∂ φk|∂) with respect to k≥1 determines uniquely the magnetic field dA and the electric potential V.