Cyclic Evolution of Coronal Fields from a Coupled Dynamo Potential-Field Source-Surface Model
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- 作者:Mausumi Dikpati ; Akshaya Suresh ; Joan Burkepile
- 关键词:Corona ; structure ; Corona ; model ; Solar cycle ; Velocity fields ; interior
- 刊名:Solar Physics
- 出版年:2016
- 出版时间:February 2016
- 年:2016
- 卷:291
- 期:2
- 页码:339-355
- 全文大小:2,656 KB
- 刊物类别:Physics and Astronomy
- 刊物主题:Physics
Astronomy
Extraterrestrial Physics and Space Sciences
Astrophysics - 出版者:Springer Netherlands
- ISSN:1573-093X
文摘
The structure of the Sun’s corona varies with the solar-cycle phase, from a near spherical symmetry at solar maximum to an axial dipole at solar minimum. It is widely accepted that the large-scale coronal structure is governed by magnetic fields that are most likely generated by dynamo action in the solar interior. In order to understand the variation in coronal structure, we couple a potential-field source-surface model with a cyclic dynamo model. In this coupled model, the magnetic field inside the convection zone is governed by the dynamo equation; these dynamo-generated fields are extended from the photosphere to the corona using a potential-field source-surface model. Assuming axisymmetry, we take linear combinations of associated Legendre polynomials that match the more complex coronal structures. Choosing images of the global corona from the Mauna Loa Solar Observatory at each Carrington rotation over half a cycle (1986 – 1991), we compute the coefficients of the associated Legendre polynomials up to degree eight and compare with observations. We show that at minimum the dipole term dominates, but it fades as the cycle progresses; higher-order multipolar terms begin to dominate. The amplitudes of these terms are not exactly the same for the two limbs, indicating that there is a longitude dependence. While both the 1986 and the 1996 minimum coronas were dipolar, the minimum in 2008 was unusual, since there was a substantial departure from a dipole. We investigate the physical cause of this departure by including a North–South asymmetry in the surface source of the magnetic fields in our flux-transport dynamo model, and find that this asymmetry could be one of the reasons for departure from the dipole in the 2008 minimum.