Mapping prenoon auroral structures to the magnetosphere

Mapping prenoon auroral structures to the magnetosphere

All-sky auroral images acquired at Ny-Alesund were used in conjunction with observations of a Polar overflight on November 30, 1997, to determine where prenoon, 0900-1000 magnetic local time (MLT) auroral structures map to the outer magnetosphere. The Tsyganenko 96 magnetic field model (T96), driven...

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Bibliographic Details
Published in:Journal of Geophysical Research Vol. 105; no. A12; p. 27
Main Authors: Ober, Daniel M, Maynard, N C, Burke, W J, Weber, E J, Moen, J, Egeland, A, Sandholt, P E, Farrugia, C J, Scudder, J D
Format: Journal Article
Language:English
Published: 01-12-2000
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Summary:All-sky auroral images acquired at Ny-Alesund were used in conjunction with observations of a Polar overflight on November 30, 1997, to determine where prenoon, 0900-1000 magnetic local time (MLT) auroral structures map to the outer magnetosphere. The Tsyganenko 96 magnetic field model (T96), driven by interplanetary conditions and DST, is used for that mapping. When the T96 model is driven by conditions on this day, the open/closed field line boundary maps 2-3 degrees lower in latitude than observed for this day. By making an ad hoc adjustment to match the location of the model open/closed field line boundary to observations, we find that the agreement with other aspects of the observations is also improved. When the all-sky images are mapped into the magnetosphere, we find that the discrete aurora identified with the BPS mapped to the outer dawnside edge of the magnetosphere. This mapping indicates that earlier Geotail reports of a sunward flowing mixing region in the equatorial magnetosphere is really within the dayside extension of the BPS, compatible with both the low-altitude BPS observations of Newell and Meng (1992) and type 4 dayside aurora of Sandholt et al. (1998). Since the Polar observations place the sunward flowing mixing region as a source of region 1 currents for this IMF By positive case, these results extend the source of the region 1 currents from the antisunward flowing low-latitude boundary layer into the sunward flowing BPS. (Author)
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ISSN:0148-0227