Observations of Nightside Auroral Cavities

R•dar observations of field-aligned auroral F region density depletions (cavities) have been identified in a portion of the Sondre Stromfjord incoherent scatter radar (ISR) data base cover-ing the period February 1986 to January 1988. These "auroral cavities " are nightside phenomena with...

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Bibliographic Details
Main Authors: Richar D A. Do, M•chael Mf. Ndillo, James F. Vickp Ey, Lawrence J. Zanetti, Richard, W. Eastes
Other Authors: The Pennsylvania State University CiteSeerX Archives
Format: Text
Language:English
Subjects:
Sondre Stromfjord
Online Access:http://citeseerx.ist.psu.edu/viewdoc/summary?doi=10.1.1.551.5714
http://sirius.bu.edu/aeronomy/mendillo_jgr_V98.pdf
Description
Summary:R•dar observations of field-aligned auroral F region density depletions (cavities) have been identified in a portion of the Sondre Stromfjord incoherent scatter radar (ISR) data base cover-ing the period February 1986 to January 1988. These "auroral cavities " are nightside phenomena with localized, field-aligned F region density depletions of 20 to 70 percent below surrounding values. They occur during moderate to quiet geomagnetic conditions when the poleward edge of the auroral oval is within view of Sondre Stromfjord. Seasonally, they are a wintertime phenom-ena occurring just poleward of the statistical auroral oval. Unlike the previously reported '•polar hole, " the average width of the cavities is less than 100 kin. Case studies show that the cavities closely track the poleward edge of the most poleward auroral arc. Sequential radar scans show that cavities appear on time scales as short as several minutes, suggestive of local electrodynamic formation or rapid transport. Data from January 24, 1987, collected uring coordinated opti-cal, radar, and satellite observations spanning an hour of local time, were examined for possible cavity fomation mechanisms. The cavity fomation processes examined herein include locally enhanced chemical loss, vertical diffusion, drifting horizontal gradients in the background plasma, and evacuation as a result of field-aligned currents. The fomation time scales, calculated evac-uation fluxes, dose proximity to E region aurora, and field-aligned current signatures seen in magnetometer and radar observations uggest a strong association of the cavities with upward flowing electrons carrying region 1 downward field-aligned currents. 1.

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