Applied Sciences (Apr 2021)

Trapped Proton Fluxes Estimation Inside the South Atlantic Anomaly Using the NASA AE9/AP9/SPM Radiation Models along the China Seismo-Electromagnetic Satellite Orbit

  • Matteo Martucci,
  • Roberta Sparvoli,
  • Simona Bartocci,
  • Roberto Battiston,
  • William Jerome Burger,
  • Donatella Campana,
  • Luca Carfora,
  • Guido Castellini,
  • Livio Conti,
  • Andrea Contin,
  • Cinzia De Donato,
  • Cristian De Santis,
  • Francesco Maria Follega,
  • Roberto Iuppa,
  • Ignazio Lazzizzera,
  • Nadir Marcelli,
  • Giuseppe Masciantonio,
  • Matteo Mergé,
  • Alberto Oliva,
  • Giuseppe Osteria,
  • Francesco Palma,
  • Federico Palmonari,
  • Beatrice Panico,
  • Alexandra Parmentier,
  • Francesco Perfetto,
  • Piergiorgio Picozza,
  • Mirko Piersanti,
  • Michele Pozzato,
  • Ester Ricci,
  • Marco Ricci,
  • Sergio Bruno Ricciarini,
  • Zouleikha Sahnoun,
  • Valentina Scotti,
  • Alessandro Sotgiu,
  • Vincenzo Vitale,
  • Simona Zoffoli,
  • Paolo Zuccon

DOI
https://doi.org/10.3390/app11083465
Journal volume & issue
Vol. 11, no. 8
p. 3465

Abstract

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The radiation belts in the Earth’s magnetosphere pose a hazard to satellite systems and spacecraft missions (both manned and unmanned), heavily affecting payload design and resources, thus resulting in an impact on the overall mission performance and final costs. The NASA AE9/AP9/SPM radiation models for energetic electrons, protons, and plasma provide useful information on the near-Earth environment, but they are still incomplete as to some features and, for some energy ranges, their predictions are not based on a statistically sufficient sample of direct measurements. Therefore, it is of the upmost importance to provide new data and direct measurements to improve their output. In this work, the AP9 model is applied to the China Seismo-Electromagnetic Satellite (CSES-01) orbit to estimate the flux of energetic protons over the South Atlantic Anomaly during a short testing period of one day, 1 January 2021. Moreover, a preliminary comparison with proton data obtained from the High-Energy Particle Detector (HEPD) on board CSES-01 is carried out. This estimation will serve as the starting ground for a forthcoming complete data analysis, enabling extensive testing and validation of current theoretical and empirical models.

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