Physics
Scientific paper
Feb 2006
adsabs.harvard.edu/cgi-bin/nph-data_query?bibcode=2006jgra..11102301a&link_type=abstract
Journal of Geophysical Research, Volume 111, Issue A2, CiteID A02301
Physics
3
Ionosphere: Instruments And Techniques, Ionosphere: Auroral Ionosphere (2704), Ionosphere: Particle Precipitation, Ionosphere: Ionosphere/Atmosphere Interactions (0335), Ionosphere: Ionization Processes (7823)
Scientific paper
In this study we have derived height profiles of the ionospheric electron density Ne using remote sensing of UV and X-ray emissions from the Polar satellite and EISCAT radar data. The latter technique gives the most accurate determination of Ne providing a means to ground-truthing the satellite imaging measurements. The UV-emission data are taken from the Ultraviolet Imager (UVI) on Polar, while the X-ray data are measured by the Polar Ionospheric X-ray Imaging Experiment (PIXIE). As UVI yields a far better resolution in time and space than PIXIE, our primary approach involves UVI and EISCAT data. For a substorm event occurring on 24 March 1998, we derive Ne-UVI profiles valid in the E region above ~105 km. By comparing with simultaneous Ne-EISCAT values, we find that the two techniques match fairly well in many cases. The altitude of maximum electron density is usually below 110 km. A few cases reveal Ne-EISCAT maxima in the upper E region (130-150 km), indicating a very soft precipitating electron energy spectrum. During such conditions, we observe the largest discrepancies between the Ne-UVI and Ne-EISCAT profiles. This may reflect the difficulty of obtaining proper energy characteristics from UV emissions, when the mean electron energy is less than ~2 keV. A recalculation of these Ne-UVI values has been performed, requiring that the altitudes of the Ne-UVI maximum must match the altitudes of the Ne-EISCAT maximum. The results reveal a much better agreement between the two data sets, suggesting that UVI is measuring about the same energy flux as EISCAT. Even though the modified Ne-UVI values deviate strongly from the old Ne-UVI profiles, the effects on the Pedersen conductance, ΣP, are insignificant. Also, we find that ΣP-UVI are within +/-30% of ΣP-EISCAT for 15 of 18 cases, suggesting that remote sensing of UV-emissions provide a fairly reliable tool to monitor the Pedersen conductance. We have investigated a second approach by including PIXIE X-ray data to derive Ne-UVI + PIXIE values valid in the whole E region and upper D region. Despite the coarse PIXIE resolution, we observe a fairly good match with the Ne-EISCAT profiles. By calculating the Hall and Pedersen conductances, ΣH and ΣP, we find that the values derived from satellite imaging measurements are within +/-25% of the EISCAT values for all four cases, supporting the space-based remote sensing technique to investigate the ionospheric electrodynamics. The results presented in this study suggest that the procedures developed to derive Ne values from the satellite imaging measurements are reliable. We also find that the Ne-UVI and Ne-UVI+PIXIE values on average are slightly larger (5 and 13%) than the Ne-EISCAT values. These discrepancies may be caused by the difference in resolution between the satellite remote sensing data and the radar data, as smoothing of discrete precipitation may result in an overestimation of Ne.
Aksnes A.
Brekke Asgeir
Germany Glynn A.
Løvhaug U. P.
Oksavik Kjellmar
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