SH21A-2385
The Energy Spectrum of Solar Energetic Electrons
Tuesday, 15 December 2015
Poster Hall (Moscone South)
Liu Yang1, Linghua Wang1, Sam Krucker2, R F Wimmer-Schweingruber3 and Stuart D Bale2, (1)Peking University, Beijing, China, (2)University of California Berkeley, Berkeley, CA, United States, (3)University of Kiel, Kiel, Germany
Abstract:
Here we present a statistical survey of the energy spectrum of solar energetic electron events (SEEs) observed by the WIND 3DP instrument from 1995 though 2014. For SEEs with the minimum energy below 10 keV and the maximum energy above 100 keV, ~85% (~2%) have a double-power-law energy spectrum with a steepening (hardening) above the break energy, while ~13% have a single-power-law energy spectrum at all energies. The average spectral index is ~2.4 below the energy break and is ~4.0 above the energy break. For SEEs detected only at energies <10 keV (>20 keV), they generally show a single-power-law spectrum with the average index of ~3.0 (~3.3). The spectrum of SEEs detected only below 10 keV appears to get harder with increasing solar activity, but the spectrum of SEEs with higher-energy electrons shows no clear correlation with solar activity. We will also investigate whether the observed energy spectrum of SEEs at 1 AU mainly reflects the electron acceleration at the Sun or the electron transport in the interplanetary medium.