Open Access

Matthias Daniel

• Supermassive black hole binaries (SMBHBs) are among the most powerful known sources of gravitational waves (GWs). Accordingly, these systems could dominate the stochastic gravitational wave background (GWB) in the micro- and millihertz frequency range. The time until the merger of two SMBHs in the nucleus of a galaxy can be shortened through dynamical friction due to the presence of dark matter (DM) spikes around the SMBHs. To calculate the orbital evolution of individual SMBHBs within the Newtonian approximation, the SMBHBpy code is developed. This work confirms that the GW signals from SMBHBs with DM spikes can be clearly distinguished from those without any matter. Making use of the upper limit on the characteristic strain of the GWB derived from the data of the Cassini spacecraft mission in 2001/2002, a lower limit on the matter density around SMBHBs is derived in this study. The result is subsequently compared with the theoretical density profiles for cold dark matter and self-interacting dark matter spikes.