Open AccessRole of flares and shocks in determining solar energetic particle abundances
Author(s) -
Cane H. V.,
Mewaldt R. A.,
Cohen C. M. S.,
von Rosenvinge T. T.
Publication year - 2006
Publication title -
journal of geophysical research: space physics
Language(s) - English
Resource type - Journals
SCImago Journal Rank - 1.67
H-Index - 298
eISSN - 2156-2202
pISSN - 0148-0227
DOI - 10.1029/2005ja011071
Subject(s) - solar energetic particles , physics , solar flare , interplanetary spaceflight , astrophysics , solar wind , particle acceleration , flare , shock (circulatory) , coronal mass ejection , northern hemisphere , event (particle physics) , atmospheric sciences , particle (ecology) , acceleration , plasma , nuclear physics , geology , medicine , oceanography , classical mechanics
We examine solar energetic particle (SEP) event‐averaged abundances of Fe relative to O and intensity versus time profiles at energies above 25 MeV/nucleon using the SIS instrument on ACE. These data are compared with solar wind conditions during each event and with estimates of the strength of the associated shock based on average travel times to 1 AU. We find that the majority of events with an Fe to O abundance ratio greater than two times the average 5–12 MeV/nuc value for large SEP events (0.134) occur in the western hemisphere. Furthermore, in most of these Fe‐rich events the profiles peak within 12 hours of the associated flare, suggesting that some of the observed interplanetary particles are accelerated in these flares. The vast majority of events with Fe/O below 0.134 are influenced by interplanetary shock acceleration. We suggest that variations in elemental composition in SEP events mainly arise from the combination of flare particles and shock acceleration of these particles and/or the ambient medium.
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