Revealing the Formation of the <20 MeV Inner Proton Radiation Belt at; <i>L</i>; ∼ 2 During the 10–11 May 2024 Superstorm | CU Experts

Abstract; ; A new proton radiation belt was identified during the geomagnetic superstorm of 10–11 May 2024. To investigate its origin, we use an MHD‐test particle simulation to model solar energetic proton (SEP) trapping and the evolution of the initial trapped proton population during the storm. The simulation weights the injected SEP population with interplanetary proton measurements and the initial trapped proton radial profile with energy‐resolved Weather System Follow‐on‐Microwave (WSF‐M) proton data, enabling quantitative comparison with observations. Results show that SEP contributions are minimal; the new ∼2–18 MeV belt at; L; ∼ 2 forms mainly through redistribution and energization of the initial trapped population within hours of the CME shock, driven by subsequent electric field impulses, rather than the initial shock alone. These results provide quantitative evidence based on realistic, plasma‐dependent field dynamics and significantly advance understanding of inner radiation belt formation.;

Qin M; Hudson MK; Engel M; Kress BT; Li Z; Patel M; Li W; Pham K; Johnston WR; Li X

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