Litcius/Paper detail

Being Careful with the Field Formation Interpretation of GW190412

Mohammadtaher Safarzadeh, Kenta Hotokezaka

2020The Astrophysical Journal Letters17 citationsDOIOpen Access PDF

Abstract

Abstract The LIGO/Virgo Scientific Collaboration recently announced the detection of a compact object binary merger, GW190412, as the first asymmetric binary black hole (BBH) merger with mass ratio q ≈ 0.25. Other than the mass ratio, this BBH has been shown to have a positive effective spin of around χ eff ≈ 0.28. Assuming a field formation channel, associating this effective spin to either the primary or the secondary black hole (BH) each have implications: if the spin of the BBH comes from the primary BH, it has consequences for the efficiency of angular momentum transport in the formation of the BH. If, on the other hand, the spin is due to the secondary BH through tidal spin-up processes, it should be noted that (i) such processes have very short delay times, and (ii) subsequently, their local merger rate is determined by local star formation rate at the assumed formation metallicity of the BBH. We show that the predicted merger rate density from this channel is , and is in tension with the rather high local merger rate of such systems, which we estimate from this single event to be (90% confidence interval, and assuming 50 days of observing time). Large natal kicks ( v ≳ 500 km s −1 ) would be required to get such an BBHs with an in-plane spin component to account for the marginal detection of precession in GW190412. However, this would only exacerbate the tension as the estimated local merger rate would be further decreased. Similarly, the formation of such systems through the dynamical assembly is exceedingly rare; consequently, it is difficult to account for this system with the currently accepted paradigms of BBH formation.

Topics & Concepts

PhysicsAngular momentumSpin (aerodynamics)PrecessionMetallicityBinary black holeBlack hole (networking)Interpretation (philosophy)Event (particle physics)Field (mathematics)AstrophysicsStar formationBinary numberMomentum (technical analysis)Primary (astronomy)CosmologyMass ratioSpin-flipPulsars and Gravitational Waves ResearchGamma-ray bursts and supernovaeAstrophysical Phenomena and Observations