Journal of Space Weather and Space Climate (Jan 2018)

Updated Model of the Solar Energetic Proton Environment in Space

  • Jiggens Piers,
  • Heynderickx Daniel,
  • Sandberg Ingmar,
  • Truscott Pete,
  • Raukunen Osku,
  • Vainio Rami

DOI
https://doi.org/10.1051/swsc/2018010
Journal volume & issue
Vol. 8
p. A31

Abstract

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The Solar Accumulated and Peak Proton and Heavy Ion Radiation Environment (SAPPHIRE) model provides environment specification outputs for all aspects of the Solar Energetic Particle (SEP) environment. The model is based upon a thoroughly cleaned and carefully processed data set. Herein the evolution of the solar proton model is discussed with comparisons to other models and data. This paper discusses the construction of the underlying data set, the modelling methodology, optimisation of fitted flux distributions and extrapolation of model outputs to cover a range of proton energies from 0.1 MeV to 1 GeV. The model provides outputs in terms of mission cumulative fluence, maximum event fluence and peak flux for both solar maximum and solar minimum periods. A new method for describing maximum event fluence and peak flux outputs in terms of 1-in-x-year SPEs is also described. SAPPHIRE proton model outputs are compared with previous models including CREME96, ESP-PSYCHIC and the JPL model. Low energy outputs are compared to SEP data from ACE/EPAM whilst high energy outputs are compared to a new model based on GLEs detected by Neutron Monitors (NMs).

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