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  • Tang, S. W., Wang, Y., Zhao, H. Y., Fang, F., Qian, Y., Zhang, Y. J., Yang, H. B., Li, C. H., Fu, Q., Kong, J., Hu, X. Y., Su, H., Sun, Z. Y., Yu, Y. H., Zhang, B. M., Sun, Y., and Sun, Z. P. (2020). Calibration of Mars Energetic Particle Analyzer (MEPA). Earth Planet. Phys., 4(4), 355–363. DOI: 10.26464/epp2020055
    Citation: Tang, S. W., Wang, Y., Zhao, H. Y., Fang, F., Qian, Y., Zhang, Y. J., Yang, H. B., Li, C. H., Fu, Q., Kong, J., Hu, X. Y., Su, H., Sun, Z. Y., Yu, Y. H., Zhang, B. M., Sun, Y., and Sun, Z. P. (2020). Calibration of Mars Energetic Particle Analyzer (MEPA). Earth Planet. Phys., 4(4), 355–363. DOI: 10.26464/epp2020055
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Calibration of Mars Energetic Particle Analyzer (MEPA)

  • The first Mars exploration mission of China (Tianwen-1) is scheduled to be launched in 2020; a charged particle telescope, the Mars Energetic Particle Analyzer (MEPA), is carried as one of the payloads on the orbiter. The MEPA is designed to measure solar energetic particles (SEPs) and galactic cosmic rays (GCRs) in the near-Mars space and in the transfer orbit from Earth to Mars. Before the launch, the MEPA was calibrated in ground experiments with radioactive sources, electronic pulses, and accelerator beams. The calibration parameters, such as energy conversion constants, threshold values for the triggers, and particle identification criteria, were determined and have been stored for onboard use. The validity of the calibration parameters has been verified with radioactive sources and beams. The calibration results indicate that the MEPA can measure charged particles reliably, as designed, and that it can satisfy the requirements of the Tianwen-1 mission.
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