Title :
Prediction of Faraday rotation impairments in C-band satellite links
Author :
Gheorghisor, Izabela ; Dissanayake, A. ; Allnutt, J. ; Yaghmour, S.
Author_Institution :
COMSAT Lab., Clarksburg, MD, USA
Abstract :
Faraday rotation is brought about by the free electrons present in the ionosphere and results in depolarization of linearly polarized signals. The depolarization increases the interference levels encountered by systems employing frequency reuse through orthogonal polarization. In the fixed satellite service, only C-band frequencies are affected by Faraday rotation. An accurate model of Faraday rotation can help in the initial line-up and subsequent adjustments at earth stations to minimize co-channel interference produced by depolarization. The paper describer the impact of Faraday rotation on C-band satellite links and a methodology to predict the levels of impairments expected on a global basis.
Keywords :
Faraday effect; UHF radio propagation; cochannel interference; electromagnetic wave polarisation; ionospheric electromagnetic wave propagation; satellite links; C-band frequencies; C-band satellite links; Faraday rotation impairments prediction; UHF; co-channel interference minimisation; depolarization; earth stations; fixed satellite service; free electrons; frequency reuse; integrated electron content; interference levels; ionosphere; linearly polarized signals; magnetic field strength; orthogonal polarization; satellite-to-ground path; Atmospheric measurements; Earth; Electromagnetic wave polarization; Electrons; Frequency; Ionosphere; Magnetic field measurement; Magnetic fields; Satellites; Sea measurements;
Conference_Titel :
Antennas and Propagation Society International Symposium, 2000. IEEE
Conference_Location :
Salt Lake City, UT, USA
Print_ISBN :
0-7803-6369-8
DOI :
10.1109/APS.2000.875205
