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- Moestl, C., et al.
(författare)
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The structure of an earthward propagating magnetic flux rope early in its evolution : comparison of methods
- 2009
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Ingår i: Annales Geophysicae. - 0992-7689 .- 1432-0576. ; 27:5, s. 2215-2224
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Tidskriftsartikel (refereegranskat)abstract
- We analyze a magnetic signature associated with the leading edge of a bursty bulk flow observed by Cluster at -19 R-E downtail on 22 August 2001. A distinct rotation of the magnetic field was seen by all four spacecraft. This event was previously examined by Slavin et al. (2003b) using both linear force-free modeling as well as a curlometer technique. Extending this work, we apply here single- and multi-spacecraft Grad-Shafranov (GS) reconstruction techniques to the Cluster observations and find good evidence that the structure encountered is indeed a magnetic flux rope and contains helical magnetic field lines. We find that the flux rope has a diameter of approximately 1 R-E, an axial field of 26.4 nT, a velocity of approximate to 650 km/s, a total axial current of 0.16 MA and magnetic fluxes of order 10(5) Wb. The field line twist is estimated as half a turn per RE. The invariant axis is inclined at 40 degrees to the ecliptic plane and 10 degrees to the GSM equatorial plane. The flux rope has a force-free core and non-force-free boundaries. When we compare and contrast our results with those obtained from minimum variance, single-spacecraft force-free fitting and curlometer techniques, we find in general fair agreement, but also clear differences such as a higher inclination of the axis to the ecliptic. We further conclude that single- spacecraft methods have limitations which should be kept in mind when applied to THEMIS observations, and that non-force-free GS and curlometer techniques are to be preferred in their analysis. Some properties we derived for this earthward - moving structure are similar to those inferred by Lui et al. (2007), using a different approach, for a tailward-moving flux rope observed during the expansion phase of the same substorm.
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