4.7 Article

Batchelor, Saffman, and Kazantsev spectra in galactic small-scale dynamos

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出版社

OXFORD UNIV PRESS
DOI: 10.1093/mnras/stac3217

关键词

dynamo; MHD; polarization; turbulence; galaxies: magnetic fields

资金

  1. Swedish Research Council (Vetenskapsradet) [2019-04234]
  2. Nordforsk
  3. Swedish Research Council [2019-04234] Funding Source: Swedish Research Council

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The study reveals the presence of Batchelor, Kazantsev, and Saffman spectra in the small-scale dynamo. During the kinematic stage, the Batchelor spectrum is observed on larger scales, while the Kazantsev spectrum occurs on smaller scales within the inertial range. In the saturated state, the dynamo develops a Saffman spectrum, indicating the build-up of long-range correlations.
The magnetic fields in galaxy clusters and probably also in the interstellar medium are believed to be generated by a small-scale dynamo. Theoretically, during its kinematic stage, it is characterized by a Kazantsev spectrum, which peaks at the resistive scale. It is only slightly shallower than the Saffman spectrum that is expected for random and causally connected magnetic fields. Causally disconnected fields have the even steeper Batchelor spectrum. Here, we show that all three spectra are present in the small-scale dynamo. During the kinematic stage, the Batchelor spectrum occurs on scales larger than the energy-carrying scale of the turbulence, and the Kazantsev spectrum on smaller scales within the inertial range of the turbulence - even for a magnetic Prandtl number of unity. In the saturated state, the dynamo develops a Saffman spectrum on large scales, suggestive of the build-up of long-range correlations. At large magnetic Prandtl numbers, elongated structures are seen in synthetic synchrotron emission maps showing the parity-even E polarization. We also observe a significant excess in the E polarization over the parity-odd B polarization at subresistive scales, and a deficiency at larger scales. This finding is at odds with the observed excess in the Galactic microwave foreground emission, which is believed to be associated with larger scales. The E and B polarizations may be highly non-Gaussian and skewed in the kinematic regime of the dynamo. For dust emission, however, the polarized emission is always nearly Gaussian, and the excess in the E polarization is much weaker.

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