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Characterizing High-Energy Solar Proton Events with Energies Below and Above 100 MeV




TekijätAmeri, Dheyaa; Valtonen, Eino; Al-Sawad, Amjad; Vainio, Rami

KustantajaSpringer Science and Business Media B.V.

Julkaisuvuosi2024

JournalSolar Physics

Tietokannassa oleva lehden nimiSolar Physics

Artikkelin numero133

Vuosikerta299

Numero9

eISSN1573-093X

DOIhttps://doi.org/10.1007/s11207-024-02378-9

Verkko-osoitehttps://doi.org/10.1007/s11207-024-02378-9

Rinnakkaistallenteen osoitehttps://research.utu.fi/converis/portal/detail/Publication/458293601


Tiivistelmä
We analyzed 58 high-energy proton events that occurred during the years 1996 – 2022. In 32 out of the 58 (55%) events, the proton energies extended up to ∼68 MeV but did not reach 100 MeV. In the remaining 26 events, the proton energies exceeded 100 MeV. We studied the differences in the characteristics of these proton events and their associations with solar and interplanetary phenomena to improve understanding proton sources and acceleration processes. The coronal mass ejections (CMEs) associated with >100 MeV proton events appeared to be, on average, more energetic than those associated with <100 MeV proton events. The peak and integrated fluxes (fluence) of the soft X-ray (SXR) flares were higher in > 100 MeV proton events, but there was almost no difference in the rise times of the flares. In a major part of the >100 MeV proton events, protons were released over the rise phase of the SXR flares, whereas in most of the <100 MeV events the proton releases occurred after the peak of the SXR flares. We established limits for the CME speed VCME and SXR peak flux Fpk or total fluence Fi, which helped us to distinguish the events in the two groups. Solar eruptions with VCME>1000 km s−1 and F>pk5⋅10−5 W m−2 had a high probability to produce proton events of >100 MeV. On the other hand, eruptions with V>CME900 km s−1 and F100 MeV events. Our analysis showed that protons in most of the >100 MeV events were released low in the corona (≤3.0 R⊙) before the onsets of the DH-Type II radio bursts. Conversely, protons in most of the <100 MeV events were released higher in the corona (>3 R⊙) and after the DH-Type II onsets. We conclude that protons in most of the >100 MeV events are accelerated either by the flare reconnection processes or by shocks low in the corona and could undergo reacceleration higher in the corona in CME shocks manifested in DH-Type II radio emission. In the <100 MeV events, protons are mainly accelerated in CME shocks at coronal heights >3 R⊙.

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Julkaisussa olevat rahoitustiedot
Open Access funding provided by University of Turku (including Turku University Central Hospital). RV acknowledges support under ESA Contract No. 4000134036/21/D/MRP in the context of the Space Radiation Expert Service Centre and from the European Union’s Horizon Europe programme under grant agreement No. 101135044 (SPEARHEAD). The European Commission is not responsible for any use that may be made of the information contained in this study.


Last updated on 2025-27-01 at 20:03