主要内容:
一个系统的三维数值模拟。
他们的模型可以产生快速的角动量转移,从而可以有大的吸积率。
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文章信息:
- · arXiv e-print (arXiv:1006.4624)
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| Title: |
| Long duration gamma-ray bursts: hydrodynamic instabilities in collapsar disks |
| Authors: |
| Taylor, Paul A.; Miller, John C.; Podsiadlowski, Philipp |
| Publication: |
| eprint arXiv:1006.4624 |
| Publication Date: |
| 06/2010 |
| Origin: |
| ARXIV |
| Keywords: |
| Astrophysics - High Energy Astrophysical Phenomena, Astrophysics - Solar and Stellar Astrophysics |
| Comment: |
| submitted to MNRAS; 32 pages, 46 figures |
| Bibliographic Code: |
| 2010arXiv1006.4624T |
Abstract
We present 3D numerical simulations of the early evolution of long-duration gamma-ray bursts in the collapsar scenario. Starting from the core-collapse of a realistic progenitor model, we follow the formation and evolution of a central black hole and centrifugally balanced disk. The dense, hot accretion disk produces freely-escaping neutrinos and is hydrodynamically unstable to clumping and to forming non-axisymmetric (m=1, 2) modes. We show that these spiral structures, which form on dynamical timescales, can efficiently transfer angular momentum outward and can drive the high required accretion rates (>=0.1-1 M_sun) for producing a jet. We utilise the smoothed particle hydrodynamics code, Gadget-2, modified to implement relevant microphysics, such as cooling by neutrinos, a plausible treatment approximating the central object and relativistic effects. Finally, we discuss implications of this scenario as a source of energy to produce relativistically beamed gamma-ray jets.
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