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Global Magnetohydrodynamic Waves in Stably Stratified Rotating Layers

Márquez Artavia, Xiomara (2017) Global Magnetohydrodynamic Waves in Stably Stratified Rotating Layers. PhD thesis, University of Leeds.

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The 2D shallow water approximation in magnetohydrodynamics is solved, numerically and analytically, for a perfectly conducting fluid on a rotating sphere with a basic state for the toroidal magnetic field: Bφ = B0 sin θ. The results are given in terms of the parameters ε=(2Ω_0 R_0)^2/gH_0 and α^2=v_A^2/(2Ω_0 R_0)^2, where Ω_0 is the rotation rate, R0 is the radius, g is the gravity, H0 is the height of the layer and vA is the Alfv´en speed. Five types of solution have been found: Magneto-inertial gravity waves (MIG), Kelvin waves, fast and slow magnetic Rossby waves and a slow anomalous mode travelling westward. A comprehensive numerical study describes the modes in a full range of parameters. As α → 0, the eigenfunctions are the Associated Legendre polynomials, if ε → 0. When ε → ∞ the eigenfunctions describing MIG and Fast magnetic Rossby waves are defined by the parabolic cylinder functions for waves confined to the equator. The slow magnetic Rossby waves are not equatorially trapped. When α ≥ 0.5 there is a transition for magnetic Rossby waves. The slow and fast modes coalesce and an unstablemode emerges, but only when the azimuthal wavenumber m = 1. After this transition point (α = 0.5) the fast magnetic Rossby waves turn into subalfv´enic waves and tend to be trapped at the poles. As α → ∞, theMIG waves become equatorially trapped Alfv´en waves. These modes are always stable. The slow and fast magnetic Rossby waves (real and complex) are polar trapped with eigenfunctions described by Laguerre polynomials multiplied by a factor that gives the confinement. The antisymmetric configuration for the field Bφ = B0 sin θ cos θ, produces similar results to the previous case but the main difference is that the slow magnetic Rossby waves are absent. Also, magnetic Rossby waves become unstable for certain values of α and ε, then become real again by interacting with another mode and so on, weaving a net. On the other hand, when α is large, there is a critical layer which absorbs the MIG waves.

Item Type: Thesis (PhD)
Keywords: Shallow water model, waves, rotating fluids, Alfv`en waves, fast and slow Magnetic Rossby waves, Magneto-Inertial Gravity waves, Kelvin Waves
Academic Units: The University of Leeds > Faculty of Maths and Physical Sciences (Leeds) > School of Mathematics (Leeds) > Applied Mathematics (Leeds)
Identification Number/EthosID: uk.bl.ethos.727235
Depositing User: Ms Xiomara Marquez
Date Deposited: 22 Nov 2017 15:46
Last Modified: 25 Jul 2018 09:56
URI: http://etheses.whiterose.ac.uk/id/eprint/18656

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