Solar-Terrestrial Physics (Sep 2018)

First results of absolute measurements of solar flux at the Irkutsk Incoherent Scatter Radar (IISR)

  • Setov A.G.,
  • Globa M.V.,
  • Medvedev A.V.,
  • Vasilyev R.V.,
  • Kushnarev D.S.

DOI
https://doi.org/10.12737/stp-43201804
Journal volume & issue
Vol. 4, no. 3
pp. 24 – 27

Abstract

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The Irkutsk Incoherent Scatter Radar (IISR) allows us to carry out passive radio observations of the Sun and other powerful radio sources. We describe a method for absolute measurements of spectral flux density of solar radiation at IISR. The absolute measurements are meant to determine the flux density in physical units [W·m–2·Hz–1]. The IISR antenna is a horn with frequency beam steering, therefore radio sources can be observed at different frequencies. Also there is a polarization filter in the antenna aperture, which passes only single (horizontal) polarization. To acquire flux density absolute values, the IISR receiver is calibrated by the Cygnus-A radiation. Since the Sun’s position in the IISR antenna pattern is determined by a frequency differing from the Cygnus-A observation frequency, we perform an additional calibration of the frequency response in the 154–162 MHz operation frequency range, using the background sky noise. The solar disk size is comparable with the main beam width in the north—south direction, hence the need to take into account the shape of the brightness distribution in the operation frequency range. The average flux density of the quiet-Sun radiation was ~5 sfu (solar flux units, 10–22 W·m–2·Hz–1) at the 161 MHz frequency.

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