Astronomy and Astrophysics – Astrophysics
Scientific paper
2003-10-17
Astrophys.J. 601 (2004) 905-920
Astronomy and Astrophysics
Astrophysics
42 pages, 15 figures, accepted for publication in ApJ; For better postscript figures and mpeg animations, see http://www.ast
Scientific paper
10.1086/380785
The structure and dynamics of diffuse gas in the Milky Way and other disk galaxies may be strongly influenced by thermal and magnetorotational instabilities (TI and MRI) on scales of about 1-100 pc. We initiate a study of these processes, using two-dimensional numerical hydrodynamic and magnetohydrodynamic (MHD) simulations with conditions appropriate for the atomic interstellar medium (ISM). We demonstrate, consistent with previous work, that nonlinear development of ``pure TI'' produces a network of filaments that condense into cold clouds at their intersections, yielding a distinct two-phase warm/cold medium within about 20 Myr. TI-driven turbulent motions of the clouds saturate at subsonic amplitudes for uniform initial P/k=2000 K cm^-3. MRI has previously been studied in near-uniform media; our simulations include both TI+MRI models, which begin from uniform-density conditions, and cloud+MRI models, which begin with a two-phase cloudy medium. Both the TI+MRI and cloud+MRI models show that MRI develops within a few galactic orbital times, just as for a uniform medium. The mean separation between clouds can affect which MRI mode dominates the evolution. Provided intercloud separations do not exceed half the MRI wavelength, we find the MRI growth rates are similar to those for the corresponding uniform medium. This opens the possibility, if low cloud volume filling factors increase MRI dissipation times compared to those in a uniform medium, that MRI-driven motions in the ISM could reach amplitudes comparable to observed HI turbulent linewidths.
Ostriker Eve C.
Piontek Robert A.
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