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November 2004 space weather events: Real‐time observations and forecasts
Author(s) -
Trichtchenko L.,
Zhukov A.,
van der Linden R.,
Stankov S. M.,
Jakowski N.,
Stanisławska I.,
Juchnikowski G.,
Wilkinson P.,
Patterson G.,
Thomson A. W. P.
Publication year - 2007
Publication title -
space weather
Language(s) - English
Resource type - Journals
SCImago Journal Rank - 1.254
H-Index - 56
ISSN - 1542-7390
DOI - 10.1029/2006sw000281
Subject(s) - space weather , coronal mass ejection , earth's magnetic field , ionosphere , interplanetary spaceflight , solar wind , heliosphere , geomagnetic storm , geomagnetically induced current , meteorology , event (particle physics) , interplanetary magnetic field , environmental science , physics , geophysics , astrophysics , plasma , magnetic field , quantum mechanics
Space weather events with their solar origin and their distribution through the heliosphere affect the whole magnetosphere‐ionosphere‐Earth system. Their real‐time monitoring and forecasting are important for science and technology. Here we discuss one of the largest space weather events of Solar Cycle 23, in November 2004, which was also one of the most difficult periods to forecast. Nine halo coronal mass ejections (CMEs), interacting on their way through the interplanetary medium and forming two geoeffective interplanetary structures, exemplify the complexity of the event. Real‐time and quasi‐real‐time observations of the ground geomagnetic field show rapid and extensive expansion of the auroral oval to 55° in geomagnetic latitude accompanied by great variability of the ionosphere. Geomagnetically induced currents (GICs) seen in ground networks, such as power grids and pipelines, were significant during the event, although no problems were reported. Forecasts of the CME propagation, global and local ground geomagnetic activity, and ionospheric parameters, issued by several regional warning centers, revealed certain deficiencies in predictions of the interplanetary characteristics of the CME, size of the geomagnetic disturbances, and complexity of the ionospheric variations produced by this event. This paper is a collective report based on the materials presented at the splinter session on November 2004 events during the first European Space Weather Week.

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