Journal of Space Weather and Space Climate (Jan 2016)

DOSIS & DOSIS 3D: long-term dose monitoring onboard the Columbus Laboratory of the International Space Station (ISS)

  • Berger Thomas,
  • Przybyla Bartos,
  • Matthiä Daniel,
  • Reitz Günther,
  • Burmeister Sönke,
  • Labrenz Johannes,
  • Bilski Pawel,
  • Horwacik Tomasz,
  • Twardak Anna,
  • Hajek Michael,
  • Fugger Manfred,
  • Hofstätter Christina,
  • Sihver Lembit,
  • Palfalvi Jozsef K.,
  • Szabo Julianna,
  • Stradi Andrea,
  • Ambrozova Iva,
  • Kubancak Jan,
  • Brabcova Katerina Pachnerova,
  • Vanhavere Filip,
  • Cauwels Vanessa,
  • Van Hoey Olivier,
  • Schoonjans Werner,
  • Parisi Alessio,
  • Gaza Ramona,
  • Semones Edward,
  • Yukihara Eduardo G.,
  • Benton Eric R.,
  • Doull Brandon A.,
  • Uchihori Yukio,
  • Kodaira Satoshi,
  • Kitamura Hisashi,
  • Boehme Matthias

DOI
https://doi.org/10.1051/swsc/2016034
Journal volume & issue
Vol. 6
p. A39

Abstract

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The radiation environment encountered in space differs in nature from that on Earth, consisting mostly of highly energetic ions from protons up to iron, resulting in radiation levels far exceeding the ones present on Earth for occupational radiation workers. Since the beginning of the space era, the radiation exposure during space missions has been monitored with various active and passive radiation instruments. Also onboard the International Space Station (ISS), a number of area monitoring devices provide data related to the spatial and temporal variation of the radiation field in and outside the ISS. The aim of the DOSIS (2009–2011) and the DOSIS 3D (2012–ongoing) experiments was and is to measure the radiation environment within the European Columbus Laboratory of the ISS. These measurements are, on the one hand, performed with passive radiation detectors mounted at 11 locations within Columbus for the determination of the spatial distribution of the radiation field parameters and, on the other, with two active radiation detectors mounted at a fixed position inside Columbus for the determination of the temporal variation of the radiation field parameters. Data measured with passive radiation detectors showed that the absorbed dose values inside the Columbus Laboratory follow a pattern, based on the local shielding configuration of the radiation detectors, with minimum dose values observed in the year 2010 of 195–270 μGy/day and maximum values observed in the year 2012 with values ranging from 260 to 360 μGy/day. The absorbed dose is modulated by (a) the variation in solar activity and (b) the changes in ISS altitude.

Keywords