2003
DOI: 10.5194/angeo-21-893-2003
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On the lifetime and extent of an auroral westward flow channel (AWFC) observed during a magnetospheric substorm

Abstract: Abstract.A −190-nT negative bay in the geomagnetic X component measured at Macquarie Island (−65 • ) showed that an ionospheric substorm occurred during 09:58 to 11:10 UT on 27 February 2000. Signatures of an auroral westward flow channel (AWFC) were observed nearly simultaneously in the backscatter power, LOS Doppler velocity, and Doppler spectral width measured using the Tasman International Geospace Environment Radar (TIGER), a Southern Hemisphere HF SuperDARN radar. Many of the characteristics of the AWFC … Show more

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Cited by 31 publications
(59 citation statements)
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“…The auroral flow channel was located at a relatively low latitude of ∼−65 • in the evening sector, had a width of ∼2 • −3 • latitude and had a maximum westward velocity of >1.3 kms −1 during the expansion phase. We suggest that the strong westward flows observed in this study at the equatorward edge of the radars' f-o-v in the post-dusk sector at, and after, substorm onset could well be the poleward edge of the auroral westward flow channel observed by Parkinson et al (2003). The Northern Hemisphere SuperDARN radars are clearly not observing the equatorward edge of the flow channel, which would explain the underestimation of the potential across the return flow region.…”
Section: Discussionmentioning
confidence: 60%
See 1 more Smart Citation
“…The auroral flow channel was located at a relatively low latitude of ∼−65 • in the evening sector, had a width of ∼2 • −3 • latitude and had a maximum westward velocity of >1.3 kms −1 during the expansion phase. We suggest that the strong westward flows observed in this study at the equatorward edge of the radars' f-o-v in the post-dusk sector at, and after, substorm onset could well be the poleward edge of the auroral westward flow channel observed by Parkinson et al (2003). The Northern Hemisphere SuperDARN radars are clearly not observing the equatorward edge of the flow channel, which would explain the underestimation of the potential across the return flow region.…”
Section: Discussionmentioning
confidence: 60%
“…The convection zone moving to lower latitudes is the most likely cause of the plateau of the low-latitude potential around substorm onset. Parkinson et al (2003) presented observations of an auroral westward flow channel observed during a substorm by the TIGER SuperDARN radar in the Southern Hemisphere. The auroral flow channel was located at a relatively low latitude of ∼−65 • in the evening sector, had a width of ∼2 • −3 • latitude and had a maximum westward velocity of >1.3 kms −1 during the expansion phase.…”
Section: Discussionmentioning
confidence: 99%
“…These sub-auroral electric fields play critical roles in energising and transporting ring current ions as well as convecting thermal plasma in the inner magnetosphere and in the mid-to low-latitude ionosphere (Foster and Vo 2002). In SuperDARN observations these phenomena have often been termed auroral westward flow channels (AWFCs) (Parkinson et al 2003(Parkinson et al , 2005 and they appear any time between substorm onset and recovery. Koustov et al (2006) also observed SAPS with the King Salmon SuperDARN radar.…”
Section: The Structure and Dynamics Of Mesoscale Convectionmentioning
confidence: 99%
“…Galperin et al (1973) originally discovered polarisation jets (PJs), very narrow channels (<1 to 2 • ) of intense westward plasma flow (500 m s −1 to >4 km s −1 ) forming in proximity to SAPS. PJs have been referred to by various terms including sub-auroral ions drifts (SAID) (Spiro et al, 1979), substorm-associated radar auroral surges (SARAS) (Freeman et al, 1992;Shand et al, 1998), sub-auroral electric fields (SAEF) (Karlsson et al, 1998), and auroral westward flow channels (AWFC) (Parkinson et al, 2003a). The diverse SAPS nomenclature has arisen from observations of different aspects of the same phenomena, and the important distinctions need to be reconciled.…”
Section: Introductionmentioning
confidence: 99%
“…In terms of electric fields, AWFCs are the strongest signature of substorms . Parkinson et al (2003a) suggested AWFCs feed the development of the SAPS. Defining the relationship between AWFCs and the main population of PJ/SAIDs and SAPS occurring further equatorward will require a latitudinal chain of sub-auroral radars making continuous observations throughout the entire substorm cycle.…”
Section: Introductionmentioning
confidence: 99%