MHD in a cylindrical shearing box II: Intermittent Bursts and Substructures in MRI Turbulence
Autor: | Suzuki, Takeru K. |
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Rok vydání: | 2023 |
Předmět: | |
Zdroj: | ApJ, 957, 99, 2003 |
Druh dokumentu: | Working Paper |
DOI: | 10.3847/1538-4357/acfb88 |
Popis: | By performing ideal magnetohydrodynamical (MHD) simulations with weak vertical magnetic fields in unstratified cylindrical shearing boxes with modified boundary treatment, we investigate MHD turbulence excited by magnetorotational instability. The cylindrical simulation exhibits extremely large temporal variation in the magnetic activity compared to the simulation in a normal Cartesian shearing box, although the time-averaged field strengths are comparable in the cylindrical and Cartesian setups. Detailed analysis of the terms describing magnetic-energy evolution with "triangle diagrams" surprisingly reveals that in the cylindrical simulation the compression of toroidal magnetic field is unexpectedly as important as the winding due to differential rotation in amplifying magnetic fields and triggering intermittent magnetic bursts, which are not seen in the Cartesian simulation. The importance of the compressible amplification is also true for a cylindrical simulation with tiny curvature; the evolution of magnetic fields in the nearly Cartesian shearing box simulation is fundamentally different from that in the exact Cartesian counterpart. The radial gradient of epicycle frequency, $\kappa$, which cannot be considered in the normal Cartesian shearing box model, is the cause of this fundamental difference. An additional consequence of the spatial variation of $\kappa$ is continuous and ubiquitous formation of narrow high(low)-density and weak(strong)-field localized structures; seeds of these ring-gap structures are created by the compressible effect and subsequently amplified and maintained under the marginally unstable condition regarding "viscous-type" instability. Comment: 26 pages, 21 figures, ApJ, in press |
Databáze: | arXiv |
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