2011
DOI: 10.1029/2011ja016462
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Magnetopause response to variations in the solar wind: Conjunction observations between Cluster, TC-1, and SuperDARN

Abstract: [1] How the solar wind affects the location of the magnetopause has been widely studied and excellent models of the magnetopause based on in situ observations in the solar wind and at the magnetopause have been established, while the careful insight into the responses of the magnetopause to the variations in the solar wind can still provide us some new information about the processes in space plasmas. The short distance from Cluster to TC-1 on 9 March 2004, between 06:10 and 08:10 UT, gives us a good opportuni… Show more

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Cited by 9 publications
(8 citation statements)
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“…It is expected that there would be time difference between P dy and IMF for propagation inside the magnetosheath. However, the time difference is estimated to be only 5–7 min [ Zhang et al , ]. This lag time can be explained in terms of IMF being “frozen” in the shocked solar wind (magnetosheath) with reduced velocity, while disturbance of P dy is transported with a faster magnetosonic speed.…”
Section: Conclusion and Discussionmentioning
confidence: 99%
“…It is expected that there would be time difference between P dy and IMF for propagation inside the magnetosheath. However, the time difference is estimated to be only 5–7 min [ Zhang et al , ]. This lag time can be explained in terms of IMF being “frozen” in the shocked solar wind (magnetosheath) with reduced velocity, while disturbance of P dy is transported with a faster magnetosonic speed.…”
Section: Conclusion and Discussionmentioning
confidence: 99%
“…C . Zhang et al ., 2011; Ganushkina et al , ; Shen et al , ], denoted as j φ . As pointed by Vogt et al [], with three point magnetic measurements, the current density can be obtained as if the direction of the current is known.…”
Section: Methodsmentioning
confidence: 99%
“…Different methods have been developed to derive the current density from Cluster four-point measurements based on a linear estimation from the Maxwell-Ampère's law [e.g., Chanteur, 1998;Dunlop et al, 2002;Shen et al, 2003]. Among them, Vallat et al [2005] and Q. H. Zhang et al [2011] provided current distribution around 4-5R E using the curlometer method [Dunlop et al, 1988[Dunlop et al, , 2002; Shen et al [2014] calculated the current density and studied local magnetic configuration variation during storm time using magnetic curvature analysis [Shen et al, 2003] and magnetic rotation analysis [Shen et al, 2007] methods. The four Cluster satellites are well suited for calculating the 3-D current density.…”
Section: Introductionmentioning
confidence: 99%
“…In summary, the separation of the BRP and the PJP is a common feature of the exhaust region in asymmetric reconnections, regardless of the magnitude of the asymmetry. The exhaust region will generally move inward towards the magnetosphere as reconnection erodes the magnetopause24 because of the relative motion between the exhaust region and the TC-1; thus, the precise features of the separation distance as illustrated by δ xs in equation 4 cannot be achieved based on single-point observations. This type of investigation will be the topic of the analysis of the data resulting from the anticipated Magnetospheric Multiscale mission (MMS)25.…”
Section: Resultsmentioning
confidence: 99%