Revising natal kick prescriptions in population synthesis simulations

Abstract

Natal kicks are matter of debate and significantly affect the merger rate density of compact objects. Here, we present a new simple formalism for natal kicks of neutron stars (NSs) and black holes (BHs). We describe the magnitude of the kick as v kickf H05\,\,m ej\,\,m rem-1, where f H05 is a normalization factor, drawn from a Maxwellian distribution with one-dimensional root-mean-square velocity σ=265~km~s-1, m ej is the mass of the supernova (SN) ejecta and m rem is the mass of the compact object. This formalism matches the proper motions of young Galactic pulsars and can naturally account for the differences between core-collapse SNe of single stars, electron-capture SNe and ultra-stripped SNe occurring in interacting binaries. Finally, we use our new kick formalism to estimate the local merger rate density of binary NSs (R BNS), BH--NS binaries (R BHNS) and binary BHs (R BBH), based on the cosmic star formation rate density and metallicity evolution. In our fiducial model, we find R BNS600~Gpc-3~yr-1, R BHNS10~Gpc-3~yr-1 and R BBH50~Gpc-3~yr-1, fairly consistent with the numbers inferred from the LIGO-Virgo collaboration.