Atmospheric Chemistry and Physics (Jan 2016)

Atmospheric polarimetric effects on GNSS radio occultations: the ROHP-PAZ field campaign

  • R. Padullés,
  • E. Cardellach,
  • M. de la Torre Juárez,
  • S. Tomás,
  • F. J. Turk,
  • S. Oliveras,
  • C. O. Ao,
  • A. Rius

DOI
https://doi.org/10.5194/acp-16-635-2016
Journal volume & issue
Vol. 16
pp. 635 – 649

Abstract

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This study describes the first experimental observations showing that hydrometeors induce polarimetric signatures in global navigation satellite system (GNSS) signals. This evidence is relevant to the PAZ low Earth orbiter, which will test the concept and applications of polarimetric GNSS radio occultation (RO) (i.e. ROs obtained with a dual-polarization antenna). A ground field campaign was carried out in preparation for PAZ to verify the theoretical sensitivity studies on this concept (Cardellach et al., 2015). The main aim of the campaign is to identify and understand the factors that might affect the polarimetric GNSS observables. Studied for the first time, GNSS signals measured with two polarimetric antennas (H, horizontal, and V, vertical) are shown to discriminate between heavy rain events by comparing the measured phase difference between the H and V phase delays (ΔΦ) in different weather scenarios. The measured phase difference indicates higher dispersion under rain conditions. When individual events are examined, significant increases in ΔΦ occur when the radio signals cross rain cells. Moreover, the amplitude of such a signal is much higher than the theoretical prediction for precipitation; thus, other sources of polarimetric signatures have been explored and identified. Modelling of other hydrometeors, such as melting particles and ice crystals, have been proposed to explain the obtained measurements, with good agreement in more than 90 % of the cases.