Long-lived resonances of massive scalar fields in the Reissner-Nordstr\"om black-hole spacetime: Analytic treatment in the large-mass regime

TL;DR

This paper analytically investigates long-lived resonances of massive scalar fields around Reissner-Nordström black holes in the large-mass regime, revealing the critical mass spectrum for these quasi-resonances.

Contribution

It provides an analytical derivation of the critical mass spectrum for long-lived scalar resonances in the Reissner-Nordström black-hole spacetime.

Findings

Existence of arbitrarily long-lived quasi-resonances for given charge parameters.

Analytical determination of the critical mass spectrum for these resonances.

Abstract

The physical and mathematical properties of the composed Reissner-Nordstr\"om-black-hole-massive-scalar-field system are studied {\it analytically} in the dimensionless large-mass $M\mu\gg1$ regime [here $\{M,\mu\}$ are respectively the mass of the central black hole and the proper mass of the scalar field]. It is proved that, for a given value ${\bar Q}\equiv Q/M$ of the dimensionless charge parameter of the central black hole, the system is characterized by the presence of quasi-resonances, linearized perturbation modes with arbitrarily long lifetimes. In particular, using analytical techniques, we determine the black-hole-field critical mass spectrum $\{M\mu_{\text{crit}}({\bar Q})\}$ which characterizes the long-lived resonances of the composed physical system.