Remote Sensing (Oct 2019)

Remote Sensing of the Atmosphere by the Ultraviolet Detector TUS Onboard the Lomonosov Satellite

  • Pavel Klimov,
  • Boris Khrenov,
  • Margarita Kaznacheeva,
  • Gali Garipov,
  • Mikhail Panasyuk,
  • Vasily Petrov,
  • Sergei Sharakin,
  • Andrei Shirokov,
  • Ivan Yashin,
  • Mikhail Zotov,
  • Viktor Grebenyuk,
  • Andrei Grinyuk,
  • Maria Lavrova,
  • Artur Tkachenko,
  • Leonid Tkachev,
  • Alla Botvinko,
  • Oleg Saprykin,
  • Andrei Puchkov,
  • Alexander Senkovsky

DOI
https://doi.org/10.3390/rs11202449
Journal volume & issue
Vol. 11, no. 20
p. 2449

Abstract

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The orbital detector TUS (Tracking Ultraviolet Setup) with high sensitivity in near-visible ultraviolet (tens of photons per time sample of 0.8 μ s of wavelengths 300−400 nm from a detector’s pixel field of view) and the microsecond-scale temporal resolution was developed by the Lomonosov-UHECR/TLE collaboration and launched into orbit on 28 April 2016. A variety of different phenomena were studied by measuring ultraviolet signals from the atmosphere: extensive air showers from ultra-high-energy cosmic rays, lightning discharges, transient atmospheric events, aurora ovals, and meteors. These events are different in their origin and in their duration and luminosity. The TUS detector had a capability to conduct measurements with different temporal resolutions (0.8 μ s, 25.6 μ s, 0.4 ms, and 6.6 ms) but the same spatial resolution of 5 km. Results of the TUS detector measurements of various atmospheric emissions are discussed and compared to data from previous experiments.

Keywords