http://arxiv.org/abs/2204.11730
The LIGO-Virgo-KAGRA (LVK) Collaboration has reported ~100 BH-BH mergers to date. The LVK provides estimates of rates, masses, effective spins, and redshifts for these mergers. Yet, the formation channel(s) of the mergers remains uncertain. One way to search for a formation site is to contrast properties of detected BH-BH mergers with different models of BH-BH merger formation. Here, we assess the usefulness of the average total mass of BH-BH mergers and its change with redshift to help identify the formation site of BH-BH mergers. We find that the average intrinsic BH-BH total merger mass shows exceptionally different behavior for the models that we adopt for our analysis. In the local universe (z=0) the average merger mass changes from Mtot=25Msun for CE binary evolution and open clusters channels, to Mtot=30Msun for the RLOF binary channel, to Mtot=45Msun for the globular cluster channel. These differences are even more pronounced at larger redshifts. However, these differences are diminished when considering LVK O3 detector sensitivity. Comparison with LVK O3 data shows that none of our adopted models can match the data despite large errors on BH-BH masses and redshifts. We emphasize that our conclusions are derived from a small set of 5 specific models that are subject to numerous known uncertainties. We also note that BH-BH mergers may originate from a mix of several channels and that other BH-BH formation channels may exist. Our study was designed to investigate the usefulness of the total BH-BH merger mass in establishing the origin of gravitational-wave sources.
K. K.Belczynski, Z. Z.Doctor, M. M.Zevin, et. al.
Tue, 26 Apr 22
50/74
Comments: 12 pages, submitted to ApJ