Interhemispheric asymmetries in the occurrence of magnetically conjugate sub-auroral polarisation streams

Parkinson, M.L.; Pinnock, M.; Wild, J.A.; Lester, M.; Yeoman, T.K.; Milan, S.E.; Ye, H.; Devlin, J.C.; Frey, H.U.; Kikuchi, T.. 2005 Interhemispheric asymmetries in the occurrence of magnetically conjugate sub-auroral polarisation streams. Annales Geophysicae, 23 (4). 1371-1390. https://doi.org/10.5194/angeo-23-1371-2005

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Abstract/Summary

Earthward injections of energetic ions and electrons mark the onset of magnetospheric substorms. In the inner magnetosphere (L~4), the energetic ions drift westward and the electrons eastward, thereby enhancing the equatorial ring current. Wave-particle interactions can accelerate these particles to radiation belt energies. The ions are injected slightly closer to Earth in the pre-midnight sector, leading to the formation of a radial polarisation field in the inner magnetosphere. This maps to a poleward electric field just equatorward of the auroral oval in the ionosphere. The poleward electric field is subsequently amplified by ionospheric feedback, thereby producing auroral westward flow channels (AWFCs). In terms of electric field strength, AWFCs are the strongest manifestation of substorms in the ionosphere. Because geomagnetic flux tubes are essentially equi-potentials, similar AWFC signatures should be observed simultaneously in the Northern and Southern Hemispheres. Here we present magnetically conjugate SuperDARN radar observations of AWFC activity observed in the pre-midnight sector during two substorm intervals including multiple onsets during the evening of 30 November 2002. The Northern Hemisphere observations were made with the Japanese radar located at King Salmon, Alaska (57°^), and the Southern Hemisphere observations with the Tasman International Geospace Environment Radar (TIGER) located at Bruny Island, Tasmania (-55°^). LANL geosynchronous satellite observations of energetic ion and electron fluxes monitored the effects of substorms in the inner magnetosphere (L~6). The radar-observed AWFC activity was coincident with activity observed at geosynchronous orbit, as well as westward current surges in the ionosphere observed using ground-based magnetometers. The location of AWFCs with respect to the auroral oval was inferred from FUV auroral images recorded on board the IMAGE spacecraft. DMSP SSIES ion drift measurements confirmed the presence of AWFCs equatorward of the auroral oval. Systematic asymmetries in the interhemispheric signatures of the AWFCs probably arose because the magnetic flux tubes were distorted at L shells passing close to the substorm dipolarisation region. Transient asymmetries were attributed to the development of nearby field-aligned potential drops and currents.

Item Type:	Publication - Article
Digital Object Identifier (DOI):	https://doi.org/10.5194/angeo-23-1371-2005
Programmes:	BAS Programmes > Antarctic Science in the Global Context (2000-2005) > Magnetic Reconnection, Substorms and their Consequences
ISSN:	0992-7689
Additional Keywords:	Ionosphere, Magnetosphere
NORA Subject Terms:	Atmospheric Sciences Space Sciences
Date made live:	10 Jan 2008 14:43 +0 (UTC)
URI:	https://nora.nerc.ac.uk/id/eprint/1907

Item Type:

Publication - Article

Digital Object Identifier (DOI):

https://doi.org/10.5194/angeo-23-1371-2005

Programmes:

BAS Programmes > Antarctic Science in the Global Context (2000-2005) > Magnetic Reconnection, Substorms and their Consequences

ISSN:

0992-7689

Additional Keywords:

Ionosphere, Magnetosphere

NORA Subject Terms:

Atmospheric Sciences
Space Sciences