Dissipative-acoustic instability in accretion disks at a nonlinear stage |
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Authors: | A. V. Khoperskov S. S. Khrapov E. A. Nedugova |
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Affiliation: | (1) Volgograd State University, Vtoraya Prodol’naya ul. 30, Volgograd, 400062, Russia |
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Abstract: | Nonstationary hydrodynamic models of a viscous accretion disk around a central compact object were constructed. Two different numerical methods (TVD and SPH) are used to study the dynamics of dissipatively unstable acoustic perturbations at the nonlinear stage in terms of the standard α-disk model. The standard disk accretion in the Shakura-Sunyaev model is unstable against acoustic waves for various parameters of the system. If the α parameter, which specifies the level of turbulent viscosity, exceeds α?0.03, then a complex nonstationary system of small-scale weak shock waves is formed. The growth rate of the perturbations is higher in the central disk region. For α?0.2, the relative shock amplitude can exceed 50% of the equilibrium disk parameters. The reflection of waves from the disk boundaries and their nonlinear interaction are important factors that can produce unsteady accretion. The luminosity of such a disk undergoes quasi-periodic oscillations at a level of several percent (?5%) of the equilibrium level. |
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Keywords: | accretion disks hydrodynamic models |
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