Astronomy and Astrophysics – Astrophysics
Scientific paper
2003-01-23
Theor.Comput.Fluid Dyn. 19 (2005) 127-157
Astronomy and Astrophysics
Astrophysics
35 pages; 12 figures; to appear in Acoustic emission and scattering by turbulent flows, ed. M. Rast (Springer LNP)
Scientific paper
Astrophysical turbulence is magnetohydrodynamic (MHD) in its nature. We discuss fundamental properties of MHD turbulence. In particular, we discuss the generation of compressible MHD waves by Alfvenic turbulence and show that this process is inefficient. This allows us to study the evolution of different types of MHD perturbations separately. We describe how to separate MHD fluctuations into 3 distinct families - Alfven, slow, and fast modes. We find that the degree of suppression of slow and fast modes production by Alfvenic turbulence depends on the strength of the mean field. We show that Alfven modes in compressible regime exhibit scalings and anisotropy similar to those in incompressible regime. Slow modes passively mimic Alfven modes. However, fast modes exhibit isotropy and a scaling similar to that of acoustic turbulence both in high- and low-beta plasmas. We show that our findings entail important consequences for theories of star formation, cosmic ray propagation, dynamics of dust, and gamma ray bursts. We anticipate many more applications of the new insight to MHD turbulence and expect more revisions of the existing paradigms of astrophysical processes as the field matures.
Cho Jungyeon
Lazarian Alex
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