Consistency of the average flux of solar energetic particles over different timescales up to mega-years

Abstract: Fluxes of solar energetic particles (SEPs) produced during solar eruptive events such as flares or coronal mass ejections are directly measured by space-borne detectors over the past decades. However, rare (about once per millennium) extreme SEP events have been recently discovered as studied by terrestrial cosmogenic proxy data for the past ten millennia. In addition, isotopic analysis of lunar rocks can reveal the average SEP fluxes on the mega-year timescale. Until now, it was unclear whether the SEP fluxes… Show more

“…It was reported that the direct data from the space era do not accurately depict the long-term average of solar energetic particle flux. This is because they account for only 20-55% of the total, with the majority being attributed to rare, extremely intense SEP events from the past [63]. Taking into account both, direct (from GOES) and proxy data (from cosmogenic isotopes 14C, 10Be and 36Cl), harmonious correspondence with the mega-year averaged one, was shown.…”

Rapporteur Talk: Solar and Heliospheric

“…It was reported that the direct data from the space era do not accurately depict the long-term average of solar energetic particle flux. This is because they account for only 20-55% of the total, with the majority being attributed to rare, extremely intense SEP events from the past [63]. Taking into account both, direct (from GOES) and proxy data (from cosmogenic isotopes 14C, 10Be and 36Cl), harmonious correspondence with the mega-year averaged one, was shown.…”

Rapporteur Talk: Solar and Heliospheric