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Outputs of the team
PAPERS
- How Can a Negative Magnetic Helicity Active Region Generate a Positive Helicity Magnetic Cloud?, Sol. Phys., DOI 10.1007/s11207-009-9470-2.
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Abstract. The geoeffective magnetic cloud (MC) of 20 November 2003 was associated with the 18 November 2003 solar active events in previous studies. In some of these, it was estimated
that the magnetic helicity carried by the MC had a positive sign, as did its solar
source, active region (AR) NOAA 10501. In this article we show that the large-scale magnetic
field of AR 10501 has a negative helicity sign. Since coronal mass ejections (CMEs)
are one of the means by which the Sun ejects magnetic helicity excess into interplanetary
space, the signs of magnetic helicity in the AR and MC must agree. Therefore, this finding
contradicts what is expected from magnetic helicity conservation. However, using, for the
first time, correct helicity density maps to determine the spatial distribution of magnetic helicity
injections, we show the existence of a localized flux of positive helicity in the southern
part of AR 10501. We conclude that positive helicity was ejected from this portion of the
AR leading to the observed positive helicity MC.
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PRESENTATIONS
- SOLAR SOURCES RELATED TO THE LARGEST DST VARIATIONS OF SOLAR CYCLE 23, International Living with a Star, Utamambuca, Brazil
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- HALO CMES FAR FROM CENTRAL MERIDIAN: WHY ARE THEY GEOEFFECTIVE? , International Living with a Star, Utamambuca, Brazil
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- THE GEOEFFECTIVENESS OF HALO CMES FAR FROM CENTRAL MERIDIAN, European Space Weather Week 6, Bruges, Belgium.
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