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Properties and Geoeffectiveness of Magnetic Clouds in the Rising, Maximum and Early Declining Phases of Solar Cycle 23 : Volume 23, Issue 2 (28/02/2005)

By Huttunen, K. E. J.

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Book Id: WPLBN0003990055
Format Type: PDF Article :
File Size: Pages 17
Reproduction Date: 2015

Title: Properties and Geoeffectiveness of Magnetic Clouds in the Rising, Maximum and Early Declining Phases of Solar Cycle 23 : Volume 23, Issue 2 (28/02/2005)  
Author: Huttunen, K. E. J.
Volume: Vol. 23, Issue 2
Language: English
Subject: Science, Annales, Geophysicae
Collections: Periodicals: Journal and Magazine Collection (Contemporary), Copernicus GmbH
Publication Date:
Publisher: Copernicus Gmbh, Göttingen, Germany
Member Page: Copernicus Publications


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Bothmer, V., J. Koskine, H. E., J. Huttune, K. E., & Schwenn, R. (2005). Properties and Geoeffectiveness of Magnetic Clouds in the Rising, Maximum and Early Declining Phases of Solar Cycle 23 : Volume 23, Issue 2 (28/02/2005). Retrieved from

Description: Department of Physical Sciences, Theoretical Physics Division, P.O. Box 64, FIN-00014 University of Helsinki, Finland. The magnetic structure and geomagnetic response of 73 magnetic clouds (MC) observed by the WIND and ACE satellites in solar cycle 23 are examined. The results have been compared with the surveys from the previous solar cycles. The preselected candidate MC events were investigated using the minimum variance analysis to determine if they have a flux-rope structure and to obtain the estimation for the axial orientation (ΘC, ΦC). Depending on the calculated inclination relative to the ecliptic we divided MCs into bipolar (ΘC<45°) and unipolar (ΘC>45°). The number of observed MCs was largest in the early rising phase, although the halo CME rate was still low. It is likely that near solar maximum we did not identify all MCs at 1AU, as they were crossed far from the axis or they had interacted strongly with the ambient solar wind or with other CMEs. The occurrence rate of MCs at 1AU is also modified by the migration of the filament sites on the Sun towards the poles near solar maximum and by the deflection of CMEs towards the equator due to the fast solar wind flow from large polar coronal holes near solar minimum. In the rising phase nearly all bipolar MCs were associated with the rotation of the magnetic field from the south at the leading edge to the north at the trailing edge. The results for solar cycles 21-22 showed that the direction of the magnetic field in the leading portion of the MC starts to reverse at solar maximum. At solar maximum and in the declining phase (2000-2003) we observed several MCs with the rotation from the north to the south. We observed unipolar (i.e. highly inclined) MCs frequently during the whole investigated period. For solar cycles 21-22 the majority of MCs identified in the rising phase were bipolar while in the declining phase most MCs were unipolar. The geomagnetic response of a given MC depends greatly on its magnetic structure and the orientation of the sheath fields. For each event we distinguished the effect of the sheath fields and the MC fields. All unipolar MCs with magnetic field southward at the axis were geoeffective (Dst<-50nT) while those with the field pointing northward did not cause magnetic storms at all. About half of the all identified MCs were not geoffective or the sheath fields preceding the MC caused the storm. MCs caused more intense magnetic storms (Dst<-100nT) than moderate magnetic storms (-50nT ≥Dst≥-100nT).

Properties and geoeffectiveness of magnetic clouds in the rising, maximum and early declining phases of solar cycle 23


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