Litcius/Paper detail

Primordial black holes captured by neutron stars: Simulations in general relativity

Thomas W. Baumgarte, Stuart L. Shapiro

2024Physical review. D/Physical review. D.11 citationsDOI

Abstract

We present self-consistent numerical simulations in general relativity of putative primordial black holes inside neutron stars. Complementing a companion paper in which we assumed the black-hole mass $m$ to be much smaller than the mass ${M}_{*}$ of the neutron star, thereby justifying a point-mass treatment, we here consider black holes with masses large enough so that their effect on the neutron star cannot be neglected. We develop and employ several new numerical techniques, including initial data describing boosted black holes in neutron-star spacetimes, a relativistic determination of the escape speed, and a gauge condition that keeps the black hole at a fixed coordinate location. We then perform numerical simulations that highlight different aspects of the capture of primordial black holes by neutron stars. In particular, we simulate the initial passage of the black hole through the star, demonstrating that the neutron star remains dynamically stable provided the black-hole mass is sufficiently small, $m\ensuremath{\lesssim}0.05{M}_{*}$. We model the late evolution of a black hole oscillating about the center of an initially stable neutron star while accreting stellar mass and ultimately triggering gravitational collapse.

Topics & Concepts

Neutron starPhysicsAstrophysicsTheory of relativityStarsNumerical relativityGeneral relativityAstronomyBlack hole (networking)Theoretical physicsComputer scienceRouting protocolComputer networkRouting (electronic design automation)Link-state routing protocolPulsars and Gravitational Waves ResearchAstrophysical Phenomena and ObservationsGeophysics and Sensor Technology