Singular diffusionless limits of double-diffusive instabilities in MHD

Research output: Contribution to conferenceAbstractpeer-review

Abstract

We study local instabilities of a differentially rotating viscous flow of electrically conducting in-compressible fluid subject to an external azimuthal magnetic field. In the presence of the magnetic field, the hydrodynamically stable flow can demonstrate non-axisymmetric azimuthal magnetoro-tational instability (AMRI) both in the diffusionless case and in the double-diffusive case with viscous and ohmic dissipation. Performing stability analysis of amplitude transport equations of short-wavelength approximation, we find that the threshold of the diffusionless AMRI via the Hamilton-Hopf bifurcation is a singular limit of the thresholds of the viscous and resistive AMRI corresponding to the dissipative Hopf bifurcation and manifests itself as the Whitney umbrella singular point. A smooth transition between the two types of instabilities is possible only if the magnetic Prandtl number is equal to unity, Pm = 1. At a fixed Pm non equal to unity, the threshold of the double-diffusive AMRI is displaced by finite distance in the parameter space with respect to the diffusionless case even in the zero dissipation limit. The complete neutral stability surface contains three Whitney umbrella singular points and two mutually orthogonal intervals of self-intersection. At these singularities, the double-diffusive system reduces to a marginally stable system which is either Hamiltonian or parity-time-symmetric.
Original languageEnglish
Publication statusPublished - 25 Nov 2018
EventMHD Days and GdRI Dynamo Meeting - Helmholtz-Zentrum Dresden-Rossendorf, Dresden, Germany
Duration: 26 Nov 201828 Nov 2018
https://www.hzdr.de/db/Cms?pOid=56001&pNid=0&pLang=en

Conference

ConferenceMHD Days and GdRI Dynamo Meeting
Country/TerritoryGermany
CityDresden
Period26/11/1828/11/18
Internet address

Keywords

  • magnetohydrodynamcs (MHD)
  • Magnetorotational instability
  • magnetohydrodynamic waves
  • Rotating shear flow
  • Asymptotic expansions
  • Stability analysis

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