A data-base of electron temperature (T-e) comprising of most of the available LEO satellite measurements in the altitude range from 350 to 2000 km has been used for the development of a new global empirical model of T-e for the International Reference Ionosphere (IRI). For the first time this will include variations with solar activity. Variations at five fixed altitude ranges centered at 350, 550, 850, 1400, and 2000 km and three seasons (summer, winter, and equinox) were represented by a system of associated Legendre polynomials (up to the 8th order) in terms of magnetic local time and the earlier introduced invdip latitude. The solar activity variations of T-e are represented by a correction term of the T-e global pattern and it has been derived from the empirical latitudinal profiles of T-e for day and night (Truhlik et al., 2009a). Comparisons of the new T-e model with data and with the IRI 2007 T-e model show that the new model agrees well with the data generally within standard deviation limits and that the model performs better than the current IRI T-e model.

• 出版日期2012