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Communication Dans Un Congrès Année : 2020

Geomagnetic Response to a Chain of Interplanetary Coronal Mass Ejections

Résumé

<p>The most geoeffective storms in the Space Age have been driven solely by the sheath preceding an interplanetary coronal mass ejection (ICME) or by a combination of the sheath and an ICME magnetic cloud. In the present study, the magnetospheric response to a chain of three independent and well-spaced ICMEs (P<sub>dyn</sub> > 15 nPa and Sym-H < -50 nT) spanning one month (December 12, 2015 &#8211; January 12, 2016) is investigated using WIND, Cluster, and MMS fields and plasma measurements. The first of the three ICMEs consists of a sheath preceding an ICME (ICME-SH). The latter two ICMEs are preceded by a combination of the sheath and an ICME magnetic cloud (ICME-SH-MC).</p><p>Following the passage of the first ICMEs (ICME-SH) the interplanetary environment was made up of moderate Alfvenic Mach number (M<sub>A</sub> ~ 10) and average magnetopause standoff distance (R<sub>MP</sub> ~ 11 R<sub>E</sub>). The arrival of the ICME-SH-MC then initiated a sudden storm commencement (SSC) phase. During the SSC, the storm index (Sym-H ~ +50 nT) remained positive through the ICME shock and sheath regions. The storm index and the Alfvenic Mach number sharply declined (Sym-H~ -200 nT and M<sub>A</sub> ~ 1.0, respectively) with the arrival of the leading edge of the magnetic cloud (B<sub>IMF, core</sub> ~ 20 nT) and the associated sharp IMF B<sub>z</sub> reversal (B<sub>z</sub><0). The Alfvenic Mach number and IMF B<sub>z</sub> are found to directly correlate with the Sym-H index. ICME-SH-MC compressed the magnetopause standoff distance (&#8706;R<sub>MP</sub>/&#8706;t ~ -1 R<sub>E</sub>/min), resulting in a sudden reduction in the total magnetospheric volume (&#8706;V<sub>MP</sub>/&#8706;t ~ -3&#215;10<sup>2</sup> R<sub>E</sub><sup>3</sup>/min), as determined by cross-scale observations. In particular, the sharp drops in the magnetospheric volume (relative change in volume >30%) with the arrival of each of the three independent ICMEs are shown to start with the SSC and remain low through the main phase, before slowly recovering (&#8706;V<sub>MP</sub>/&#8706;t&#160;~ +1 R<sub>E</sub><sup>3</sup>/min) to the pre-ICME conditions during the recovery phase.</p>
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Dates et versions

hal-02948299 , version 1 (24-09-2020)

Identifiants

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Mojtaba Akhavan-Tafti, Dominique Fontaine, Olivier Le Contel, James Slavin. Geomagnetic Response to a Chain of Interplanetary Coronal Mass Ejections. EGU General Assembly 2020, May 2020, Vienna, Austria. ⟨10.5194/egusphere-egu2020-10717⟩. ⟨hal-02948299⟩
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