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Magnetic fields during high redshift structure formation

arXiv:1211.4356 · doi:10.1002/asna.201211898

Abstract

We explore the amplification of magnetic fields in the high-redshift Universe. For this purpose, we perform high-resolution cosmological simulations following the formation of primordial halos with \sim10^7 M_solar, revealing the presence of turbulent structures and complex morphologies at resolutions of at least 32 cells per Jeans length. Employing a turbulence subgrid-scale model, we quantify the amount of unresolved turbulence and show that the resulting turbulent viscosity has a significant impact on the gas morphology, suppressing the formation of low-mass clumps. We further demonstrate that such turbulence implies the efficient amplification of magnetic fields via the small-scale dynamo. We discuss the properties of the dynamo in the kinematic and non-linear regime, and explore the resulting magnetic field amplification during primordial star formation. We show that field strengths of \sim10^{-5} G can be expected at number densities of \sim5 cm^{-3}.

7 pages, 6 figures, 1 table. Proceedings article for the 2012 Fall Meeting of the Astronomische Gesellschaft (AG 2012) in Hamburg, submitted for the yearbook series "Reviews in Modern Astronomy", volume 25, of the Astronomische Gesellschaft