Dynamical formation of the GW190814 merger

Abstract

We investigate the possible dynamical origin of GW190814, a gravitational wave (GW) source discovered by the LIGO-Virgo-Kagra collaboration (LVC) associated with a merger between a stellar black hole (BH) with mass 23.2 M and a compact object, either a BH or a neutron star (NS), with mass 2.59 M. Using a database of 240,000 N-body simulations modelling the formation of NS-BH mergers via dynamical encounters in dense clusters, we find that systems like GW190814 are likely to form in young, metal-rich clusters. Our model suggests that a little excess ( 2-4\%) of objects with masses in the range 2.3-3 M in the compact remnants mass spectrum leads to a detection rate for dynamically formed "GW190814 -like" mergers of GW190814 1-6 yr Gpc-3, i.e. within the observational constraints set by the GW190814 discovery, LVC 1-23 yr Gpc-3. Additionally, our model suggests that 1.8-4.8\% of dynamical NS-BH mergers are compatible with GW190426\152155, the only confirmed NS-BH merger detected by the LVC. We show that the relative amount of light and heavy NS-BH mergers can provide clues about the environments in which they developed.