A relation between the energy deposition by electron precipitation and geomagnetic indices during substorms

Details A relation between the energy deposition by electron precipitation and geomagnetic indices during substorms A relation between the energy deposition by electron precipitation and geomagnetic indices during substorms

Sep 2002

adsabs.harvard.edu/cgi-bin/nph-data_query?bibcode=2002jgra..107.1246o&link_type=abstract

Journal of Geophysical Research (Space Physics), Volume 107, Issue A9, pp. SMP 16-1, CiteID 1246, DOI 10.1029/2001JA002003

Physics

9

Ionosphere: Particle Precipitation, Magnetospheric Physics: Energetic Particles, Precipitating, Ionosphere: Current Systems (2708), Ionosphere: Electric Fields (2712)

Scientific paper

Observations from the Polar Ionospheric X-ray Imaging Experiment (PIXIE) and the Ultraviolet Imager (UVI) on board the Polar satellite have been used to derive the total energy dissipation (UA) in the Northern Hemisphere by electron precipitation in the energy range from 100 eV to 100 keV. Comparing with geomagnetic indices, we find that during substorms, UA is linearly related to the quick look AEQL1/2 and ALQL1/2 indices. The best correlation (0.86) is found between the energy flux above 10 keV and the ALQL index, which reflects that the energetic electron precipitation modulates the westward electrojet intensity by affecting the Hall conductance. The AUQL index which reflects the eastward electrojet intensity shows poor correlation with UA, either for soft or energetic electrons. This is consistent with an electric field dominance in the dusk sector and a minor role for auroral conductance in the eastward electrojet. On the basis of ionospheric electrodynamics, we argue that a nonlinear relation between UA and AE (and AL) is more appropriate than a linear relation. We show that the linear relations reported by others do not fit our data set and that they provide UA values which are too low. For the total electron energy flux (0.1-100 keV) we find the best fit to be UA[GW] = 4.4 ALQL1/2 - 7.6, with a correlation coefficient of 0.83, which is slightly better than that for the AEQL index (0.77). By time-integrating the UA derived from ALQL, we obtain estimates of the total deposited energy during substorms within +/-20% of the time-integrated UA derived from UV and X rays.

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