Boundedness and decay for the Teukolsky equation of spin 1 on Reissner-Nordstr\"om spacetime: the =1 spherical mode

Abstract

We prove boundedness and polynomial decay statements for solutions to the spin 1 Teukolsky-type equation projected to the =1 spherical harmonic on Reissner-Nordstr\"om spacetime. The equation is verified by a gauge-invariant quantity which we identify and which involves the electromagnetic and curvature tensor. This gives a first description in physical space of gauge-invariant quantities transporting the electromagnetic radiation in perturbations of a charged black hole. The proof is based on the use of derived quantities, introduced in previous works on linear stability of Schwarzschild by Dafermos-Holzegel-Rodnianski. The derived quantity verifies a Fackerell-Ipser-type equation, with right hand side vanishing at the =1 spherical harmonics. The boundedness and decay for the projection to the ≥ 2 spherical harmonics are implied by the boundedness and decay for the Teukolsky system of spin 2 obtained in our previous work. The spin 1 Teukolsky-type equation is verified by the curvature and electromagnetic components of a gravitational and electromagnetic perturbation of the Reissner-Nordstr\"om spacetime. Consequently, together with the estimates obtained in our previous work, these bounds allow to prove the full linear stability of Reissner-Nordstr\"om metric for small charge to coupled gravitational and electromagnetic perturbations.