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Common overabundance of 3He in high-energy solar particles

  • Authors: Torsti, J.; Laivola, J.; Kocharov, L.
  • Publication: Astronomy and Astrophysics, v.408, p.L1-L4, 2003
  • Solar events from 1999 February 8 to 2000 December 7
  • Statistical study
  • ADS link
  • Abstract: Solar energetic particle (SEP) observations of the ERNE instrument (the Energetic and Relativistic Nuclei and Electron experiment) onboard the Solar and Heliospheric Observatory enable measurements of the 3He intensity in the high-energy range, >15 MeV nucleon-1, with a good statistical resolution. We report an overview of the ERNE observations for the period from 8 February 1999 to 7 December 2000. Significant intensities of 3He are registered in all events with 4He intensity exceeding ~0.5 ion per (m2 s;sr MeV nucleon-1). The abundance ratio 3He/4He is measured to vary in the range ~ 0.003-2, well above solar wind values. A histogram of the daily 3He/4He ratio reveals a sharp maximum at 3He/4He ~ 0.015. This is not expected in the impulsive-gradual paradigm of solar energetic particle events. We argue that the abundance 3He/4He ~ 0.015 should be regarded as a ``normal composition'' of high-energy solar particles, instead of the previously assumed 3He/4He ~ 5*E-4. The ERNE registered also a number of 3He-rich events with 3He/4He ~ 0.1-1, which however are less frequent. We consider the common overabundance of 3He as a signature of impulsive processes, which seem unavoidable during the development of the SEP-productive solar eruptions comprising coronal mass ejections and flares.

Created by mevali. Last Modification: Wednesday 23 of May, 2007 08:45:39 UTC by mevali.