Magnetohydrodynamic simulations of shock interactions with radiative clouds
Oct, 2004
21 pages
Published in:
- Astrophys.J. 619 (2005) 327-339
e-Print:
- astro-ph/0410285 [astro-ph]
DOI:
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Abstract: (arXiv)
We present results from two-dimensional numerical simulations of the interactions between magnetized shocks and radiative clouds. Our primary goal is to characterize the dynamical evolution of the shocked clouds. We perform runs in both the strong and weak magnetic field limits and consider three different field orientations. For the geometries considered, we generally find that magnetic fields external to, but concentrated near, the surface of the cloud suppress the growth of destructive hydrodynamic instabilities. External fields also increase the compression of the cloud by effectively acting as a confinement mechanism driven by the interstellar flow and local field stretching. This can have a dramatic effect on both the efficiency of radiative cooling, which tends to increase with increasing magnetic field strength, and on the size and distribution of condensed cooled fragments. In contrast, fields acting predominately internally to the cloud tend to resist compression, thereby inhibiting cooling. We observe that, even at modest strengths, internal fields can completely suppress low-temperature cooling.- hydrodynamics
- ISM: clouds
- ISM: kinematics and dynamics
- magnetic fields
- MHD
- shock waves
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