1. Chaotic wave dynamics in weakly magnetised spherical Couette flows
- Author
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Garcia, Ferran, Seilmayer, Martin, Giesecke, André, and Stefani, Frank
- Subjects
Physics::Fluid Dynamics ,37M05, 37L20, 37G35, 76W05, 76E30 ,Fluid Dynamics (physics.flu-dyn) ,FOS: Physical sciences ,Physics - Fluid Dynamics - Abstract
Direct numerical simulations of a liquid metal filling the gap between two concentric spheres are presented. The flow is governed by the interplay between the rotation of the inner sphere (measured by the Reynolds number Re) and a weak externally applied axial magnetic field (measured by the Hartmann number Ha). By varying the latter a rich variety of flow features, both in terms of spatial symmetry and temporal dependence, is obtained. Flows with two or three independent frequencies describing their time evolution are found as a result of Hopf bifurcations. They are stable on a sufficiently large interval of Hartmann numbers where regions of multistability of two, three and even four types of these different flows are detected. The temporal character of the solutions is analysed by means of an accurate frequency analysis and Poincar\'e sections. An unstable branch of flows undergoing a period doubling cascade and frequency locking of three-frequency solutions is described as well., Comment: 32 pages, 12 figures and 3 tables
- Published
- 2020
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