Partner: Frank Stefani |
|
Recent publications
1. | Stefani F.♦, Gerbeth G.♦, Gundrum Th.♦, Hollerbach R.♦, Priede J.♦, Rüdiger G.♦, Szklarski J., Helical magnetorotational instability in a Taylor-Couette flow with strongly reduced Ekman pumping, PHYSICAL REVIEW E, ISSN: 1539-3755, DOI: 10.1103/PhysRevE.80.066303, Vol.80, pp.66303-66321, 2009 Abstract: The magnetorotational instability (MRI) is thought to play a key role in the formation of stars and black holes by sustaining the turbulence in hydrodynamically stable Keplerian accretion disks. In previous experiments the MRI was observed in a liquid metal Taylor-Couette flow at moderate Reynolds numbers by applying a helical magnetic field. The observation of this helical MRI (HMRI) was interfered with a significant Ekman pumping driven by solid end caps that confined the instability only to a part of the Taylor-Couette cell. This paper describes the observation of the HMRI in an improved Taylor-Couette setup with the Ekman pumping significantly reduced by using split end caps. The HMRI, which now spreads over the whole height of the cell, appears much sharper and in better agreement with numerical predictions. By analyzing various parameter dependencies we conclude that the observed HMRI represents a self-sustained global instability rather than a noise-sustained convective one. Keywords:magnetohydrodynamics, magnetorotational instability, Taylor-Couette flow Affiliations:
| ||||||||||||||||||||||
2. | Stefani F.♦, Gerbeth G.♦, Gundrum Th.♦, Szklarski J., Rüdiger G.♦, Hellerbach R.♦, Liquid metal experiments on the helical magnetorotational instability, Magnetohydrodynamics, ISSN: 0024-998X, Vol.45, No.2, pp.135-144, 2009 Abstract: The magnetorotational instability (MRI) plays an essential role in the formation of stars and black holes. By destabilizing hydrodynamically stable Keplerian flows, the MRI triggers turbulence and enables outward transport of angular momentum in accretion discs. We present the results of a liquid metal Taylor–Couette experiment under the influence of helical magnetic fields that show typical features of MRI at Reynolds numbers of the order 1000 and Hartmann numbers of the order 10. Particular focus is laid on an improved experiment, in which split end caps are used to minimize the Ekman pumping. Keywords:magnetohydrodynamics, magnetorotational instability, Taylor–Couette experiment Affiliations:
|