Inverse scattering at fixed energy for massive charged Dirac fields in de Sitter-Reissner-Nordstr\"om black holes

Abstract

In this paper, we consider massive charged Dirac fields propagating in the exterior region of de Sitter-Reissner-Nordstr\"om black holes.We show that the parameters of such black holes are uniquely determined by the partial knowledge of the corresponding scattering operator S(λ) at a fixed energy λ.More precisely, we consider the partial wave scattering operators S(λ,n) (here λ ∈ R is the energy and n ∈ N denotes the angular momentum) defined as the restrictions of the full scattering operator on a well chosen basis of spin-weighted spherical harmonics.We prove that the knowledge of the scattering operators S(λ,n), for all n ∈ L, where L is a subset of N that satisfies the M\"untz condition Σ\n ∈ L 1n = + ∞, allows to recover the mass, the charge and the cosmological constant of a dS-RN black hole.The main tool consists in the complexification of the angular momentum n and in studying the analytic properties of the "unphysical" corresponding data in the complex variable z.