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Stability of general-relativistic accretion disks
Date
2010-11-12
Authors
Korobkin, Oleg
Abdikamalov, Ernazar
Schnetter, Erik
Stergioulas, Nikolaos
Zink, Burkhard
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Abstract
Self-gravitating relativistic disks around black holes can form as transient structures in a number of astrophysical scenarios such as binary neutron star and black hole-neutron star coalescences, as well as the core-collapse of massive stars. We explore the stability of such disks against runaway and non-axisymmetric instabilities using three-dimensional hydrodynamics simulations in full general relativity using the THOR code. We model the disk matter using the ideal fluid approximation with a G-law equation of state with G = 4/3. We explore three disk models around non-rotating black holes with disk-to-black hole mass ratios of 0.24, 0.17 and 0.11. Due to metric blending in our initial
data, all of our initial models contain an initial axisymmetric perturbation which induces radial disk oscillations. Despite these oscillations, our models do not develop the runaway instability during the first several orbital periods. Instead, all of the models develop unstable non-axisymmetric modes on a dynamical timescale. We observe two distinct types of instabilities: the Papaloizou-Pringle and the so-called intermediate type instabilities. The development of the non-axisymmetric mode with azimuthal number m = 1 is accompanied by an outspiraling motion of the black hole, which significantly
amplifies the growth rate of the m = 1 mode in some cases. Overall, our simulations show that the properties of the unstable non-axisymmetric modes in our disk models are qualitatively similar to those in Newtonian theory
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Keywords
Research Subject Categories::NATURAL SCIENCES::Physics, self-gravitating relativistic disks
Citation
Korobkin Oleg, Abdikamalov Ernazar, Schnetter Erik, Stergioulas Nikolaos, Zink Burkhard; 2010; Stability of general-relativistic accretion disks; http://arxiv.org/find/all/1/all:+Abdikamalov/0/1/0/all/0/1