Open Astronomy (Feb 2023)

High-energy proton detector based on semiconductor telescope

  • Shen GuoHong,
  • Zhang ShenYi,
  • Quan Lin,
  • Tian Chao,
  • Zhang HuanXin,
  • Chang Zheng,
  • Zhang XianGuo,
  • Zhang Xin,
  • Sun Ying,
  • Yang Ze,
  • Sun Yueqiang

DOI
https://doi.org/10.1515/astro-2022-0197
Journal volume & issue
Vol. 32, no. 1
pp. 6647 – 6660

Abstract

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Space radiation particles will cause a variety of radiation effects on orbiting satellites, such as single event effects, total ionizing dose, displacement damage, etc. In response to these space radiation effects, BeiDou Navigation satellites M15/M16 operating in medium earth orbit (MEO) developed the first integrated monitor for high-energy proton and particle radiation effects, based on space particle radiation detection technology. This payload realizes the joint observation of the high-energy proton environment, particle radiation linear energy transfer spectrum, and total radiation dose in the MEO. According to the detection data, research on the characteristics and laws of the space particle radiation effects can be carried out, and the problem of spacecraft reliability verification in orbit can be solved from the causal chain. In this article, we have introduced the high-energy proton detector (energy range 3–300 MeV), including technical indicators, working principles, instrument design, and ground calibration.

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