The Route to Unveil the Cosmic Genealogy of Supermassive Black Hole Binaries Using Nano-Hertz Gravitational Waves and Galaxy Surveys

The nano-hertz (nHz) stochastic gravitational wave background (SGWB), produced by unresolved supermassive black hole binaries (SMBHBs), offers a unique probe of their cosmic evolution. Using our recently proposed technique, we investigate the prospect of discovering the SMBHB population and its evolution by combining the SGWB signal and its anisotropies with galaxy observation by exploring their cross-correlation. Using a Fisher analysis, we demonstrate that the SGWB power spectrum alone can provide only a weak measurement of the cosmic genealogy of SMBHBs, while the inclusion of the angular power spectrum of SGWB and its cross-correlation with the galaxy distribution can significantly improve our measurement and open a discovery space. With a PTA of 2000 pulsars, achievable in the SKA era, we find that the redshift evolution of the supermassive black hole (SMBH) mass and galaxy stellar mass can be measured with an SNR up to 4 in the redshift range up to three. The frequency distribution can be constrained with an SNR of approximately up to 80 in the same redshift range at a frequency range accessible from nHz. These SNRs improve further with the increase in the number of pulsars to 5000 expected from SKA. This demonstrates the prospect of answering the decades-long unsolved problem of SMBH growth and evolution over cosmic time and shedding new insights on the standard model of cosmology using synergy between nHz GW and galaxy surveys.