Advances and Challenges in Observations and Modeling of the Global-Sun Dynamics and Dynamo
Document Type
Conference Proceeding
Publication Date
6-8-2020
Abstract
Computational heliophysics has shed light on the fundamental physical processes inside the Sun, such as the differential rotation, meridional circulation, and dynamo-generation of magnetic fields. However, despite the substantial advances, the current results of 3D MHD simulations are still far from reproducing helioseismic inferences and surface observations. The reason is the multi-scale nature of the solar dynamics, covering a vast range of scales, which cannot be solved with the current computational resources. In such a situation, significant progress has been achieved by the mean-field approach, based on the separation of small-scale turbulence and large-scale dynamics. The mean-field simulations can reproduce solar observations, qualitatively and quantitatively, and uncover new phenomena. However, they do not reveal the complex physics of large-scale convection, solar magnetic cycles, and the magnetic self-organization that causes sunspots and solar eruptions. Thus, developing a synergy of these approaches seems to be a necessary but very challenging task.
Identifier
85146968271 (Scopus)
Publication Title
Proceedings of the International Astronomical Union
External Full Text Location
https://doi.org/10.1017/S1743921322001466
e-ISSN
17439221
ISSN
17439213
First Page
333
Last Page
352
Volume
16
Recommended Citation
Kosovichev, Alexander; Guerrero, Gustavo; Stejko, Andrey; Pipin, Valery; and Getling, Alexander, "Advances and Challenges in Observations and Modeling of the Global-Sun Dynamics and Dynamo" (2020). Faculty Publications. 5232.
https://digitalcommons.njit.edu/fac_pubs/5232
