期刊
JOURNAL OF ATMOSPHERIC AND SOLAR-TERRESTRIAL PHYSICS
卷 67, 期 15, 页码 1377-1387出版社
PERGAMON-ELSEVIER SCIENCE LTD
DOI: 10.1016/j.jastp.2005.06.021
关键词
ionosphere; ionospheric total electron content; ionospheric anomalies; thermospheric composition
We use the NASA-JPL global ionospheric maps of total electron content (TEC), obtained from observations of GPS satellite signals, to construct average noon TEC maps for one-month periods centered on the June and December solstices of 2002. By combining data from equivalent points in the northern and southern hemispheres, we find that the combined north + south TEC in December substantially exceeds that in June, almost everywhere. The global average of an 'Asymmetry Index' (AI) used to characterize such patterns, AI = (Dec-June)/(Dec+June), results in AI = 0.15 for 2002, far greater than the value of 0.035 that corresponds to the annual variation of the solar irradiance due to Sun-Earth distance. Since the F2-layer makes the major contribution to TEC, we regard this as a manifestation of the F2-layer annual asymmetry, discovered some decades ago but never explained. The neutral atomic oxygen/molecular nitrogen concentration ratio, derived from the GUVI experiment on the TIMED satellite, shows a similar but smaller asymmetry (AI = 0.06), providing some evidence that the ionospheric asymmetry is related to changes in thermospheric composition, with a still smaller AI = 0.03 in the NRL MSIS thermospheric model. (c) 2005 Elsevier Ltd. All rights reserved.
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