Multipoint observations of transient reconnection signatures in the cusp 
precipitation: A Cluster-IMAGE detailed case study

J. M. Bosqued, C. P. Escoubet, H. U. Frey, M. Dunlop, J. Berchem, A. Marchaudon, 
J. C. Cerisier, A. Fazakerley, E. Budnik, B. Lavraud, H. R�me, H. Laakso, 
A. Balogh


This paper uses 90 min of Cluster multipoint data at ~5 RE altitude together
with global dayside imaging data provided by the IMAGE-SI-12 instrument to
analyze the northern cusp crossed on 14 July 2001, during a period of high solar
wind pressure P sw and strongly duskward interplanetary magnetic field (IMF).
Simultaneous observations reveal intense cusp activity in the postnoon sector,
characterized by multiple, impulsive energy-dispersed ion injections, with a
recurrence time of ~8�10 min or less. Most of these transient signatures
correspond one to one with repeated P sw enhancements. A multipoint analysis
reveals that field-aligned current sheets associated with ion steps are moving
predominantly westward with a velocity, up to ~20 km/s, in agreement with a
flux tube motion controlled by magnetic tension forces when IMF By >> 0. These
data are used to infer a source region located at ~7�13 R E from Cluster, that
is, on the dusk flank of the compressed magnetosphere, around 17�18 magnetic
local time. We interpret these very dynamic and transient features as probable
signatures of pulsed magnetic reconnection that is operating in a localized
region of the magnetopause centered in the preferential antiparallel merging
site. Our results suggest that the reconnection rate is not spontaneously
self-varying but may be directly modulated by either upstream dynamic pressure P
sw or changes in the IMF polarity. 

_______________
Journal of Geophysical Research, 110, A03219, doi:10.1029/2004JA010621, 2005