DOI

  • E. M. Warrington
  • A. J. Stocker
  • D. R. Siddle
  • J. Hallam
  • H. A.H. Al-Behadili
  • N. Y. Zaalov
  • F. Honary
  • N. C. Rogers
  • D. H. Boteler
  • D. W. Danskin

There is a need for improved techniques for nowcasting and forecasting (over several hours) HF propagation at northerly latitudes to support airlines operating over the increasingly popular trans-polar routes. In this paper the assimilation of real-time measurements into a propagation model developed by the authors is described, including ionosonde measurements and total electron content (TEC) measurements to define the main parameters of the ionosphere. The effects of D region absorption in the polar cap and auroral regions are integrated with the model through satellite measurements of the flux of energetic solar protons (>1 MeV) and the X-ray flux in the 0.1–0.8 nm band, and ground-based magnetometer measurements which form the Kp and Dst indices of geomagnetic activity. The model incorporates various features (e.g., convecting patches of enhanced plasma density) of the polar ionosphere that are, in particular, responsible for off-great circle propagation and lead to propagation at times and frequencies not expected from on-great circle propagation alone. The model development is supported by the collection of HF propagation measurements over several paths within the polar cap, crossing the auroral oval, and along the midlatitude trough.

Язык оригиналаанглийский
Страницы (с-по)1048-1059
Число страниц12
ЖурналRadio Science
Том51
Номер выпуска7
DOI
СостояниеОпубликовано - 1 июл 2016

    Предметные области Scopus

  • Физика конденсатов
  • Планетоведение и науки о земле (все)
  • Электротехника и электроника

ID: 36357164