Litcius/Paper detail

Instabilities in neutron-star postmerger remnants

X. C. Xie, Ian Hawke, Andrea Passamonti, Nils Andersson

2020Physical review. D/Physical review. D.21 citationsDOIOpen Access PDF

Abstract

Using nonlinear, fully relativistic, simulations we investigate the dynamics and gravitational-wave signature associated with instabilities in neutron star postmerger remnants. For simplified models of the remnant we establish the presence of an instability in stars with moderate $T/|W|$, the ratio between the kinetic and the gravitational potential energies. Detailed analysis of the density oscillation pattern reveals a local instability in the inner region of the more realistic differential rotation profile. We apply Rayleigh's inflection theorem and Fj\o{}rtoft's theorem to analyze the stability criteria concluding that this inner local instability originates from a shear instability close to the peak of the angular velocity profile, and that it later evolves into a fast-rotating $m=2$ oscillation pattern. We discuss the importance of the presence of a corotation point in the fluid, its connection with the shear instability, and comparisons to the Rossby wave and Papaloizou Pringle instabilities considered in the wider literature.

Topics & Concepts

Neutron starStar (game theory)NeutronNuclear physicsPhysicsNuclear engineeringAstrophysicsEngineeringPulsars and Gravitational Waves ResearchSolar and Space Plasma DynamicsIonosphere and magnetosphere dynamics