Flux transfer events (FTEs) are transient phenomena observed near the magnetopause, characterized by bipolar perturbations in the magnetic field component perpendicular to the magnetopause (BN). FTEs are generally thought to be the results of transient reconnection at the magnetopause. In this paper we address the direction of motion of FTEs, which is difficult with one satellite, by statistically analyzing FTEs simultaneously observed by ISEE 1 and ISEE 2 satellites, which made observations for continuous 10 years (1978-1987). Two-point observation does not completely resolve the direction of motion; we cover it by large-scale statistics (634 events) of the 10-year data of ISEE. For each FTE we have determined the time lag from ISEE 1 to ISEE 2 as that which maximizes the cross-correlation function between BNs at ISEE 1 and ISEE 2. This time lag has a significant correlation with the longitudinal distance between the two satellites, consistent with east-west motions away from the subsolar point. The time lag shows a weaker correlation with the latitudinal distance. The significant east-west motion suggests that FTEs in nature are likely to have a structure whose longitudinal scale is shorter than its latitudinal scale. In other words, flux rope structure is more consistent with the observations than a long-X-line type structure.
All Science Journal Classification (ASJC) codes
- Space and Planetary Science