Solveig Theesen scite author profile

Solveig Theesen

2Publications

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Kiel University

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Statistical Results for Solar Energetic Electron Spectra Observed over 12 yr with STEREO/SEPT

Dresing

Effenberger

Gómez-Herrero

et al. 2020

ApJ

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We present a statistical analysis of near-relativistic (NR) solar energetic electron event spectra near 1 au. We use measurements of the STEREO Solar Electron and Proton Telescope (SEPT) in the energy range of 45-425 keV and utilize the SEPT electron event list containing all electron events observed by STEREO A and STEREO B from 2007 through 2018. We select 781 events with significant signal to noise ratios for our analysis and fit the spectra with single or broken power law functions of energy. We find 437 (344) events showing broken (single) power laws in the energy range of SEPT. The events with broken power laws show a mean break energy of about 120 keV. We analyze the dependence of the spectral index on the rise times and peak intensities of the events as well as on the presence of relativistic electrons. The results show a relation between the power law spectral index and the rise times of the events with softer spectra belonging to rather impulsive events. Long rise-time events are associated with hard spectra as well as with the presence of higher energy (>0.7 MeV) electrons. This group of events cannot be explained by a pure flare scenario but suggests an additional acceleration mechanism, involving a prolonged acceleration and/or injection of the particles. A dependence of the spectral index on the longitudinal separation from the parent solar source region was not found. A statistical analysis of the spectral indices during impulsively rising events (rise times < 20 minutes) is also shown.

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Efficiency of particle acceleration at interplanetary shocks: Statistical study of STEREO observations

Dresing

Theesen

Klassen

et al. 2016

A&A

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Context. Among others, shocks are known to be accelerators of energetic charged particles. However, many questions regarding the acceleration efficiency and the required conditions are not fully understood. In particular, the acceleration of electrons by shocks is often questioned. Aims. In this study we determine the efficiency of interplanetary shocks for <100 keV electrons, and for ions at ∼0.1 and ∼2 MeV energies, as measured by the Solar Electron and Proton Telescope (SEPT) instruments aboard the twin Solar Terrestrial Relations Observatory (STEREO) spacecraft. Methods. We employ an online STEREO in situ shock catalog that lists all shocks observed between 2007 and mid 2014 (observed by STEREO A) and until end of 2013 (observed by STEREO B). In total 475 shocks are listed. To determine the particle acceleration efficiency of these shocks, we analyze the associated intensity increases (shock spikes) during the shock crossings. For the nearrelativistic electrons, we take into account the issue of possible ion contamination in the SEPT instrument. Results. The highest acceleration efficiency is found for low energy ions (0.1 MeV), which show a shock-associated increase at 27% of all shocks. The 2 MeV ions show an associated increase only during 5% of the shock crossings. In the case of the electrons, the shocks are nearly ineffective. Only five shock-associated electron increases were found, which correspond to only 1% of all shock crossings.

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Solveig Theesen

Statistical Results for Solar Energetic Electron Spectra Observed over 12 yr with STEREO/SEPT

Efficiency of particle acceleration at interplanetary shocks: Statistical study of STEREO observations

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