Charged Dirac perturbations on Reissner-Nordstr\"om black holes in a cavity: quasinormal modes with Robin boundary conditions

Abstract

We investigate charged Dirac quasinormal spectra on Reissner-Nordstr\"om black holes in a mirror-like cavity. For this purpose, we first derive charged Dirac equations, and two sets of Robin boundary conditions following the vanishing energy flux principle. The Dirac spectra are then computed both analytically and numerically. Our results reveal a symmetry hidden in the Dirac spectra between two boundary conditions. Moreover, when the cavity is placed close to the event horizon r+, we identify that, in the neutral background the Dirac spectra asymptote to -(3/8+N/2)i [-(1/8+N/2)i] for the first [second] boundary condition; while in the charged background the real part of charged Dirac spectra asymptote to qQ/r+ for both boundary conditions; where N is the overtone number, q and Q are charges for the field and for the background. In particular, we uncover a striking anomalous decay pattern, i.e. the excited modes decay slower than the fundamental mode, when the charge coupling qQ is large. Our results further illustrate the robustness of vanishing energy flux principle, which are applicable not only to anti-de Sitter black holes but also to black holes in a cavity.

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