The impact of electron-capture supernovae on merging double neutron stars

TL;DR

This study uses population synthesis simulations to explore how electron-capture supernovae influence the formation and merger rates of double neutron star systems, highlighting the impact of natal kick velocities and common-envelope efficiency.

Contribution

It provides the first detailed analysis of ECSNe's role in DNS formation, considering various natal kick velocities and common-envelope parameters.

Findings

Lower ECSN natal kicks increase DNS merger numbers.

Most merging DNS progenitors experience at least one ECSN.

Assuming universally low kicks greatly increases DNS counts.

Abstract

Natal kicks are one of the most debated issues about double neutron star (DNS) formation. Several observational and theoretical results suggest that some DNSs have formed with low natal kicks ($\lesssim{}50$ km s$^{-1}$), which might be attributed to electron-capture supernovae (ECSNe). We investigate the impact of ECSNe on the formation of DNSs by means of population synthesis simulations. In particular, we assume a Maxwellian velocity distribution for the natal kick induced by ECSNe with one dimensional root-mean-square $\sigma_{\rm ECSN} = 0,7,15,26,265$ km s$^{-1}$. The total number of DNSs scales inversely with $\sigma_{\rm ECSN}$ and the number of DNS mergers is higher for relatively low kicks. This effect is particularly strong if we assume low efficiency of common-envelope ejection (described by the parameter $\alpha=1$), while it is only mild for high efficiency of common-envelope ejection ($\alpha{}=5$). In most simulations, more than 50 per cent of the progenitors of merging DNSs undergo at least one ECSN and the ECSN is almost always the first SN occurring in the binary system. Finally, we have considered the extreme case in which all neutron stars receive a low natal kick ($\lesssim{}50$~km~s$^{-1}$). In this case, the number of DNSs increases by a factor of ten and the percentage of merging DNSs which went through an ECSN is significantly suppressed ($<40$ per cent).