Information on the vertical angle of arrival (elevation) is crucial in determining propagation modes of high-frequency (HF, 3-30 MHz) radio waves travelling through the ionosphere. The most advanced network of ionospheric HF radars, SuperDARN (Super Dual Auroral Radar Network), relies on interferometry to measure elevation, but this information is rarely used due to intrinsic difficulties with phase calibration as well as with the physical interpretation of the measured elevation patterns. In this work, we propose an empirical method of calibration for SuperDARN interferometry. The method utilises a well-defined dependence of elevation on range of ground scatter returns. "Fine tuning" of the phase is achieved based on a detailed analysis of phase fluctuation effects at very low elevation angles. The proposed technique has been successfully applied to data from the mid-latitude Hokkaido East SuperDARN radar. It can also be used at any other installation that utilises HF interferometry.
CITATION STYLE
Ponomarenko, P., Nishitani, N., Oinats, A. V., Tsuya, T., & St.-Maurice, J. P. (2015). Application of ground scatter returns for calibration of HF interferometry data Coupling of the High and Mid Latitude Ionosphere and its Relation to Geospace Dynamics Space science. Earth, Planets and Space, 67(1). https://doi.org/10.1186/s40623-015-0310-3
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