Slowly decaying resonances of charged massive scalar fields in the Reissner-Nordstr\"om black-hole spacetime

Abstract

We determine the characteristic timescales associated with the linearized relaxation dynamics of the composed Reissner-Nordstr\"om-black-hole-charged-massive-scalar-field system. To that end, the quasinormal resonant frequencies \ωn(μ,q,M,Q)\n=0n=∞ which characterize the dynamics of a charged scalar field of mass μ and charge coupling constant q in the charged Reissner-Nordstr\"om black-hole spacetime of mass M and electric charge Q are determined analytically in the eikonal regime 1 Mμ<qQ. Interestingly, we find that, for a given value of the dimensionless black-hole electric charge Q/M, the imaginary part of the resonant oscillation frequency is a monotonically decreasing function of the dimensionless ratio μ/q. In particular, it is shown that the quasinormal resonance spectrum is characterized by the asymptotic behavior ω0 in the limiting case Mμ qQ. This intriguing finding implies that the composed Reissner-Nordstr\"om-black-hole-charged-massive-scalar-field system is characterized by extremely long relaxation times τrelax 1/ω∞ in the Mμ/qQ 1- limit.