Aerospace (Apr 2023)

Using Energy Particle Detection Technology on the Tiangong’s Space Station’s Wentian Laboratory Cabin Module

  • Guohong Shen,
  • Shenyi Zhang,
  • Xianguo Zhang,
  • Huanxin Zhang,
  • Bin Yuan,
  • Donghui Hou,
  • Chunqin Wang,
  • Zida Quan,
  • Zhe Yang,
  • Yueqiang Sun

DOI
https://doi.org/10.3390/aerospace10040373
Journal volume & issue
Vol. 10, no. 4
p. 373

Abstract

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To conduct real-time monitoring of the particle radiation environment in the orbit of the Tiangong space station, the installation of an energy particle detector operating on the outside of Wentian laboratory cabin module is proposed. Monitoring the energy, flux, and direction of high-energy protons, electrons, heavy ions, and neutrons in orbital space, as well as the LET spectrum and radiation dose rate generated by them, provides an important basis for studying the mechanism of the space environment that causes harm to space stations and astronauts. It also provides the necessary space environment parameters for the scientific experiment instruments on the space station. During its ground development process, the detector was verified by various calibration methods such as standard radioactive sources, equivalent signal generators, and particle accelerators. The results show that the detector can realize discrimination of particle ingredients (electrons, protons, heavy ions, and neutrons). Meanwhile, the measurement indexes can also realize target requirements, namely, from lower limit of 20 keV for medium-energy electrons and protons to heavy ion GeV, 0.025 eV~100 MeV for neutrons, and 0.233~17,475 keV/μm for the LET spectrum and 0.1~1000 mGy/day for the dose rate produced. The measurement precisions of all indexes are better than approximately 16%.

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