Short-wavelength analysis of magnetorotational instability of resistive MHD flows

Fukumoto, Yasuhide, Zou, Rong and Kirillov, Oleg (2016) Short-wavelength analysis of magnetorotational instability of resistive MHD flows. In: Mathematical Analysis of Viscous Incompressible Fluid, 14-16 November 2016, Kyoto University, Japan.

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Local stability analysis is made of axisymmetric rotating flows of a perfectly conducting fluid and resistive flows with viscosity, subjected to external azimuthal magnetic field to non-axisymmetric as well as axisymmetric perturbations. For perfectly conducting fluid (ideal MHD), we use the Hain-Lüst equation, capable of dealing with perturbations over a wide range of the axial wavenumber k to take short wavelength approximation. When the magnetic field is sufficiently weak, the maximum growth rate is given by the Oort A-value. As the magnetic field is increased, the Keplerian flow becomes unstable to waves of short axial wavelength. We also incorporate the effect of the viscosity and the electric resistivity and apply the WKB method in the same way as we do to the perfectly conducting fluid. In the inductionless limit, i.e. when the magnetic diffusivity is much larger than the viscosity, Keplerian-rotation flow of arbitrary distributions of the magnetic field, including the Liu limit, becomes unstable.

Item Type: Conference or Workshop Item (Paper)
Subjects: F300 Physics
G100 Mathematics
Department: Faculties > Engineering and Environment > Mathematics, Physics and Electrical Engineering
Related URLs:
Depositing User: Oleg Kirillov
Date Deposited: 04 May 2018 14:51
Last Modified: 01 Aug 2021 08:51

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