Evidence of polar and ultralow supernova kicks from the orbits of Be X-ray binaries

Abstract

Supernovae, the explosive deaths of massive stars, create heavy elements and form black holes and neutron stars. These compact objects often receive a velocity at formation, a "kick" whose physical origin remains debated. We investigate kicks in Be X-ray binaries, containing a neutron star and a rapidly spinning companion. We identify two distinct populations: one with kicks below 10\,km\,s-1, much lower than theoretical predictions, and another with kicks around 100\,km\,s-1, that shows evidence for being aligned within 5 degrees of the progenitor's rotation axis. The distribution of progenitor masses for the two populations have medians around 2.3\,M and 4.9\,M, corresponding to stars with birth masses of about 10\,M and 15\,M. The second component matches the low-velocity mode observed in isolated pulsars. Combined with the known high-velocity component, which dominates isolated pulsars, this suggests three distinct kick modes. These results reveal previously unrecognized diversity in neutron-star formation.