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Modeling of Multiscale Solar Dynamics for Understanding Drivers of Space WeatherUnderstanding the solar dynamics is critical for improving our capabilities to forecast the evolution of space weather conditions. We take advantage of currently available computational capabilities to model solar dynamics from the deep interior to the corona and investigate mechanisms that may drive space weather conditions. The simulations are performed using the 3D radiative MHD code StellarBox. Comparison of synthetic spectroscopic observables obtained from numerical simulations and actual observations allows us to uncover physical processes associated with observed phenomena. To facilitate a transition from modeling short-term physical phenomena to developing a reliable forecast-oriented model, we suggest using the data assimilation approach. It allows us to cross-analyze dynamo model solutions and observations and to consider possible uncertainties and errors. In this presentation, we briefly summarize current multi-scale modeling capabilities and results and discuss ongoing developments to build a reliable physics-based forecast-oriented model of solar activity
Document ID
20220009608
Acquisition Source
Ames Research Center
Document Type
Poster
Authors
Irina N. Kitiashvili
(New Jersey Institute of Technology Newark, New Jersey, United States)
Alan A. Wray
(Ames Research Center Mountain View, California, United States)
Viacheslav M. Sadykov
(New Jersey Institute of Technology Newark, New Jersey, United States)
Alexander G. Kosovichev
(New Jersey Institute of Technology Newark, New Jersey, United States)
Date Acquired
June 21, 2022
Subject Category
Solar Physics
Meeting Information
Meeting: SHINE 2022 Workshop
Location: Honolulu, Hawaii
Country: US
Start Date: June 27, 2022
Sponsors: National Science Foundation
Funding Number(s)
OTHER: SMD heliophysics grants
Distribution Limits
Public
Copyright
Use by or on behalf of the US Gov. Permitted.
Technical Review
NASA Technical Management
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