1. Applying No-z Approximation in Dynamo for Keplerian Rotation Law.
- Author
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Pashentseva, M. V. and Mikhailov, E. A.
- Subjects
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ACCRETION disks , *CONVECTIVE flow , *ROTATIONAL motion , *MAGNETIC fields , *STELLAR rotation , *STELLAR oscillations , *DYNAMO theory (Physics) - Abstract
The magnetic fields take place in different astrophysical objects, such as stars, planets, galaxies, accretion discs etc. Their evolution is usually described by the dynamo model. The equations of the dynamo are quite difficult to be solved, so different approximations are often used. One of the most successful ones are connected with the no- model which has been developed for thin discs that can be a good model for galaxies and accretion discs. In this paper we study the magnetic field evolution in the case of Keplerian rotation law. The results have been obtained for the simplest case and for the model with helicity fluxes. This approach can be useful while researching the role of convective flows in the discs. It is shown that the magnetic field can have oscillations in this case. Also we show the evolution of the energy which can significantly change because of the convective flows. [ABSTRACT FROM AUTHOR]
- Published
- 2021
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