The electromagnetic chirp of a compact binary black hole: a phase template for the gravitational wave inspiral

Abstract

The gravitational waves (GWs) from a binary black hole (BBH) with masses between 104 and 107 Msun can be detected with the Laser Interferometer Space Antenna (LISA) once their orbital frequency exceeds 10-4 - 10-5 Hz. The binary separation at this stage is approximately a=100 Rg (gravitational radius), and the orbital speed is of order v/c=0.1. We argue that at this stage, the binary will be producing bright electromagnetic (EM) radiation via gas bound to the individual BHs. Both BHs will have their own photospheres in X-ray and possibly also in optical bands. Relativistic Doppler modulations and lensing effects will inevitably imprint periodic variability in the EM light-curve, tracking the phase of the orbital motion, and serving as a template for the GW inspiral waveform. Advanced localization of the source by LISA weeks to months prior to merger will enable a measurement of this EM chirp by wide-field X-ray or optical instruments. A comparison of the phases of the GW and EM chirp signals will help break degeneracies between system parameters, and probe a fractional difference difference Delta v in the propagation speed of photons and gravitons as low as Delta v/c = O(10-17).