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arxiv: 2502.19105 · v1 · pith:K5E7YWZ3 · submitted 2025-02-26 · astro-ph.SR · astro-ph.HE

Exploring the Origin of Solar Energetic Electrons II: Investigating Turbulent Coronal Acceleration

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classification astro-ph.SR astro-ph.HE
keywords accelerationin-situregionspectralindexturbulentcoronaelectron
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Non-thermal particle acceleration in the solar corona is evident from both remote hard X-ray (HXR) sources in the chromosphere and direct in-situ detection in the heliosphere. Correlation of spectral indices between remote and in-situ energy spectra presents the possibility of a common source acceleration region within the corona, however the properties and location of this region are not well constrained. To investigate this we perform a parameter study for both the properties of the ambient plasma of a simulated acceleration region and the turbulent acceleration profile acting on an initially isotropic thermal electron population. We find that the independently varying the turbulent acceleration timescale $\tau_{acc}$, acceleration profile standard deviation ${\sigma}$ and acceleration region length L result in in-situ spectral index variation of between 0.5 and 2.0 at 1.0 AU for < 100 keV electrons. Short timescale turbulent scattering in the flaring corona steepens the spectra by $\sim$ 0.5. It was also found that the in-situ spectral index $\delta$ derived from the peak electron flux produces a spectral index $\sim$ 1.6 harder than that from a full-flare X-ray photon flux (of spectral index $\gamma$) simulated with the same intermediate parameters. Previous studies have indicated an approximate $\delta \approx \gamma$ relationship for selected flares with measured in-situ electron and X-ray photon observations, suggesting that an extended source region with non-uniform plasma and/or acceleration properties may be necessary to reproduce this relationship.

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