Empirical Modeling of the Geomagnetosphere for SIR and CME‐Driven Magnetic Storms

TitleEmpirical Modeling of the Geomagnetosphere for SIR and CME‐Driven Magnetic Storms
Publication TypeJournal Article
Year of Publication2019
AuthorsAndreeva, VA, Tsyganenko, NA
JournalJournal of Geophysical Research: Space Physics
Volume124
Issue7
Pagination5641 - 5662
Date Published07/2019
ISSN2169-9380
KeywordsMagnetic Storms; Magnetosphere; Modeling; Solar wind; spacecraft data; Van Allen Probes
AbstractDuring geomagnetic disturbances, the solar wind arrives in the form of characteristic sequences lasting from tens of hours to days. The most important magnetic storm drivers are the coronal mass ejections (CMEs) and the slow‐fast stream interaction regions (SIRs). Previous data‐based magnetic field models did not distinguish between these types of the solar wind driving. In the present work we retained the basic structure of the Tsyganenko and Andreeva (2015) model but fitted it to data samples corresponding to (1) SIR‐driven storms, (2) CME‐driven storms preceded with a shock ahead of the CME, and (3) CME‐driven storms without such shocks. The storm time dynamics of the model current systems has been represented using the parametrization method developed by Tsyganenko and Sitnov (2005), based on dynamical variables Wi, calculated from concurrent solar wind characteristics and their previous history. The database included observations of THEMIS, Polar, Cluster, Geotail, and Van Allen Probes missions during 155 storms in 1997–2016. The model current systems drastically differ from each other with respect to decay rate and total current magnitudes. During SIR‐induced storms, all current systems saturate, while during CME‐induced disturbances, the saturation occurs only for the symmetric ring current and the tail current. The partial ring current parameters are drastically different between SIR‐ and CME‐induced storm sets. In the case of SIR‐driven storms, the total partial ring current is comparable with symmetric ring current, whereas for all CME‐induced events it is nearly twice higher. The results are compared with GOES 15 magnetometer observations.
URLhttps://agupubs.onlinelibrary.wiley.com/doi/10.1029/2018JA026008
DOI10.1029/2018JA026008
Short TitleJ. Geophys. Res. Space Physics


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