Formation of the Double Neutron Star System PSR J1930-1852

Abstract

The spin period (185 ms) and period derivative (1.8×10-17\, s\,s-1) of the double neutron star (DNS) system PSR J1930-1852 recently discovered indicate that the pulsar was mildly recycled through the process of Roche-lobe overflow. This system has the longest orbital period (45 days) of the known DNS systems, and can be formed from a helium star-NS binary if the initial mass of the helium star was 4.0M ; otherwise the helium star would never fill its Roche-lobe t15. At the moment of the supernova explosion, the mass of the helium star was 3.0M . We find that the probability distribution of the velocity kick imparted to the new-born neutron star has a maximum at about 30 \, km\,s-1 (and a tail up to 260 \, km\,s-1), indicating that this NS most probably received a low kick velocity at birth.