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Critical fields and growth rates of the Tayler instability as probed by a columnar gallium experiment

Rüdiger, G.; Gellert, M.; Schultz, M.; Strassmeier, K. G.; Stefani, F.; Gundrum, T.; Seilmayer, M.; Gerbeth, G.

Many astrophysical phenomena (such as the slow rotation of neutron stars or the rigid rotation of the solar core) can be explained by the action of the Tayler instability of toroidal magnetic fields in the radiative zones of stars. In order to place the theory of this instability on a safe fundament, it has been realized in a laboratory experiment measuring the critical field strength, the growth rates, as well as the shape of the supercritical modes. A strong electrical current flows through a liquid metal confined in a resting columnar container with an insulating outer cylinder. As the very small magnetic Prandtl number of the gallium–indium–tin alloy does not influence the critical Hartmann number of the field amplitudes, the electric currents for marginal instability can also be computed with direct numerical simulations. The results of this theoretical concept are confirmed by the experiment. Also the predicted growth rates on the order of minutes for the nonaxisymmetric perturbations are certified by the measurements. That they do not directly depend on the size of the experiment is shown as a consequence of the weakness of the applied fields and the absence of rotation.

Keywords: magnetohydrodynamics (MHD); stars: magnetic field; stars: rotation

Permalink: https://www.hzdr.de/publications/Publ-17661
Publ.-Id: 17661