Stability analysis and quasinormal modes of Reissner Nordstrm Space-time via Lyapunov exponent

Abstract

We explicitly derive the proper time (τ) principal Lyapunov exponent (λp) and coordinate time (t) principal Lyapunov exponent (λc) for Reissner Nordstrm (RN) black hole (BH) . We also compute their ratio. For RN space-time, it is shown that the ratio is λpλc=r0r02-3Mr0+2Q2 for time-like circular geodesics and for Schwarzschild BH it is λpλc=r0r0-3M. We further show that their ratio λpλc may vary from orbit to orbit. For instance, Schwarzschild BH at innermost stable circular orbit(ISCO), the ratio is λpλcrISCO=6M=2 and at marginally bound circular orbit (MBCO) the ratio is calculated to be λpλcrmb=4M=2. Similarly, for extremal RN BH the ratio at ISCO is λpλcrISCO=4M=223. We also further analyse the geodesic stability via this exponent. By evaluating the Lyapunov exponent, it is shown that in the eikonal limit , the real and imaginary parts of the quasi-normal modes of RN BH is given by the frequency and instability time scale of the unstable null circular geodesics.