Source-Driven Tails in Kerr Spacetime: Nonlinear effects in Late-Time Behavior

Abstract

We present the long-duration time-domain simulations of scalar-field tails in Kerr spacetimes driven by outgoing multipolar sources. Extending the recent work in the literature from Schwarzschild to rotating black holes, we evolve sources with '=\0,1,2,3,4\ on backgrounds with dimensionless spin a/M=\0.0, 0.8, 1.0\ and extract the late-time decay rates of measured modes 4 for a nonlinearity-inspired outgoing source with a 1/r2 fall-off. In all cases we find the inverse power-law index p' to be larger than the source-free Price law values by one unit, i.e. psourced' = pPrice' + 1. We also include a power-law index value computation for a similar source-driven gravitational wave case (,m)=(4,4) and confirm closely related results in the recent literature.