Excess H, Suppressed He, and the Abundances of Elements in Solar Energetic Particles
Donald V. Reames

TL;DR
This paper investigates the elemental abundances in solar energetic particles, revealing how different SEP event types and associated phenomena influence the observed element ratios and underlying acceleration physics.
Contribution
It provides new insights into the physics of SEP acceleration by analyzing the variations in element abundances across different SEP event types and conditions.
Findings
Impulsive SEP events show large Fe/O enhancements and sometimes suppressed He.
Gradual SEP events exhibit different abundance patterns depending on shock strength and CME interactions.
Power-law behavior in A/Q helps understand SEP acceleration mechanisms and coronal properties.
Abstract
Recent studies of the abundances of H and He relative to those of heavier ions in solar energetic particle (SEP) events suggest new features in the underlying physics. Impulsive SEP events, defined by uniquely large enhancements of Fe/O, emerge from magnetic reconnection in solar jets. In small, "pure," shock-free, impulsive SEP events, protons with mass-to-charge ratio A/Q = 1 fit the power-law dependence of element abundance enhancements versus A/Q extrapolated from the heavier elements 2 < Z < 57. Sometimes these events have order-of-magnitude suppressions of He, even though H fits with heavier elements, perhaps because of the slower ionization of He during a rapid rise of plasma from the chromosphere. In larger impulsive SEP events, He fits, but there are large proton excesses relative to the power-law fit of Z > 2 ions, probably because associated coronal mass ejections (CMEs)…
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