Evidence for mass-dependent peculiar velocities in compact object binaries: Towards better constraints on natal kicks

Abstract

We compile a catalogue of low-mass and high-mass X-ray binaries, some recently reported binaries that likely host a neutron star (NS) or a black hole (BH), and binary pulsars (a pulsar and a non-degenerated companion) that have measured systemic radial velocities (γ). Using Gaia and radio proper motions together with γ, we integrate their Galactic orbits and infer their post-supernova (post-SN) 3D peculiar velocities (vpecz=0 at Galactic plane crossing); these velocities bear imprint of natal kicks that compact objects received at birth. With the sample totalling 85 objects, we model the overall distribution of vpecz=0 and find a two-component Maxwellian distribution with a low- (σv ≈ 21\,km~s-1) and a high-velocity (σv ≈ 107\,km~s-1) component. A further comparison between distributions of binary subgroups suggests that binaries hosting high-mass donors/luminous companions mostly have vpecz=0 100\,km~s-1, while binaries with low-mass companions exhibit a broader distribution that extends up to 400\,km~s-1. We also find significant anti-correlations of vpecz=0 with binary total mass (Mtot) and orbital period (Porb), at over 99% confidence. Specifically, our fit suggests vpecz=0 Mtot-0.5 and vpecz=0 Porb-0.2. Discussions are presented on possible interpretation of the correlations in the context of kinematics and possible biases. The sample should enable a range of follow-up studies on compact object binary kinematics and evolution.