Journal
ANNALES GEOPHYSICAE
Volume 30, Issue 6, Pages 911-926Publisher
COPERNICUS GESELLSCHAFT MBH
DOI: 10.5194/angeo-30-911-2012
Keywords
Magnetospheric physics; Auroral phenomena; Storms and substorms
Categories
Funding
- National Science Council [NSC 99-2111-M-006-003]
- Top University Project at the National Cheng Kung University
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We present synoptic observations of the 21 December 2006 substorm event by the THEMIS ground-based All-Sky-Imagers, the ISUAL CCD Imager aboard the FORMOSAT-2 satellite, the geosynchronous satellites and the ground-based magnetometers, and discuss the implication of the observations. There are three subsequent arc breakups with time separation of < 1 min during the substorm expansion phase. In particular, we investigated the mode number of the substorm arc bead-like structure and the concurrent behavior of the arc intensity, the westward electroject intensity, and the ground Pi2 pulsation amplitude. Prior to each arc breakup there was a clear azimuthally-spaced bright spot structure along the arc with high mode number (similar to 140-180) and the arc intensity increased together with the westward electrojet and the ground Pi2 pulsation amplitude under the arc. The Pi1 perturbations observed under the arc appeared at or after the arc breakup started. This suggests that the Pi2 pulsation is related to the arc formation. The Pi2 pulsation may be caused by the kinetic ballooning instability (KBI) that is excited in the strong cross-tail current region. The longitudinal extent of the earthward expansion front of the substorm dipolarization region at the geosynchronous orbit is estimated from timings of the energetic proton and electron injections and is roughly located between similar to 19.50 MLT and similar to 23.00 MLT, which is consistent with the corresponding longitudinal extent of the auroral substorm activity.
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