Large Geomagnetic Storms Drives by Solar Wind in Solar Cycle 24

Various solar phenomena cause anomalous circumstances in the interplanetary magnetic field (IMF) and solar wind plasma emissions. These will produce geomagnetic field disturbances for near earth space at 1AU known as geomagnetic storm. A selection of solar magnetic storm for the period (2010-2017) h...

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Veröffentlicht in:	Journal of physics. Conference series 2019-07, Vol.1234 (1), p.12004
Hauptverfasser:	Al-Feadh, Doha, Al-Ramdhan, Wathiq
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Sprache:	eng
Schlagworte:	Coronal Mass Ejection Geomagnetic field Geomagnetism Interplanetary magnetic field Magnetic Storm Magnetic storms Magnetism Solar activity Solar cycle Solar magnetic field Solar maximum Solar phenomena Solar wind Storms Sunspots
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creator	Al-Feadh, Doha Al-Ramdhan, Wathiq
description	Various solar phenomena cause anomalous circumstances in the interplanetary magnetic field (IMF) and solar wind plasma emissions. These will produce geomagnetic field disturbances for near earth space at 1AU known as geomagnetic storm. A selection of solar magnetic storm for the period (2010-2017) have been analyzed, associated with disturbance geomagnetic storm intensity (Dst) less than (-50 nT). Through the study epoch, we found 50 great solar magnetic storms, 32 were moderate, 16 were strong, and two were severe. The major severe storm occurred on 17th of March in 2015 with (Dst ∼ - 223 nT). The most of Coronal Mass Ejection (CME) that initiated the geomagnetic storms have visual width of 360 degree, and with sky plane speed around (350-2500) Km s-1. There is a better correlation for sunspot number than (CME sky plane speed with Dst index. In this investigation, we notice that the strength of geomagnetic storms has a behavior that is in harmony with solar activity extent. The reciprocal relation between geomagnetic activity and solar activity infers that space systems and many communications could be harmfully precious for numerous years after an exciting solar maximum.
doi_str_mv	10.1088/1742-6596/1234/1/012004
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subjects	Coronal Mass Ejection Geomagnetic field Geomagnetism Interplanetary magnetic field Magnetic Storm Magnetic storms Magnetism Solar activity Solar cycle Solar magnetic field Solar maximum Solar phenomena Solar wind Storms Sunspots
title	Large Geomagnetic Storms Drives by Solar Wind in Solar Cycle 24
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