The effects of Galactic model uncertainties on LISA observations of double neutron stars

TL;DR

This study evaluates how uncertainties in the Milky Way's model affect LISA's predictions of double neutron star detections, finding that spatial distribution is insensitive to galactic models but eccentricity and frequency are influenced by star formation history.

Contribution

It demonstrates that the spatial distribution of double neutron stars detected by LISA is unaffected by galactic model variations, simplifying population predictions.

Findings

Spatial distribution is insensitive to galactic models.

Eccentricity and frequency distributions depend on star formation history.

Young binaries with e>0.1 are mostly under 100 Myr old.

Abstract

Observations of binaries containing pairs of neutron stars using the upcoming space-based gravitational wave observatory, LISA, have the potential to improve our understanding of neutron star physics and binary evolution. In this work we assess the effect of changing the model of the Milky Way's kinematics and star formation history on predictions of the population of double neutron stars that will be detected and resolved by LISA. We conclude that the spatial distribution of these binaries is insensitive to the choice of galactic models, compared to the stochastic variation induced by the small sample size. In particular, the time-consuming computation of the binaries' Galactic orbits is not necessary. The distributions of eccentricity and gravitational-wave frequency are, however, affected by the choice of star-formation history. Binaries with eccentricities e>0.1, which can be measured by LISA observations, are mostly younger than 100 Myr. We caution that comparisons between different predictions for LISA observations need to use consistent star formation histories, and that the Galactic star formation history should be taken into account in the analysis of the observations themselves. The lack of strong dependency on Galactic models means that LISA detection of double neutron star binaries may provide a relatively clean probe of massive binary star evolution.