Accelerated black holes in (2+1) dimensions: Quasinormal modes and Stability
Abstract
We investigate the propagation of a scalar field in a (2+1)-dimensional accelerated black hole, recently revisited in ArenasHenriquez2022. We briefly describe the minimally-coupled configuration as rendering a trivial scalar perturbation with a rescale of the field mass. On the contrary, the free scalar field propagation presents an intricate dynamic, whose equation may be reduced through the use of Israel junction conditions and a non-trivial ansatz. In this case, using two different methods we calculate the quasinormal modes of the solution also obtaining unstable field profiles delivered by the linear scalar perturbation to the background geometry. We scrutinize the parameter space of angular eigenvalue of the field and accelerations under which such instabilities happen.
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