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Cassini observations of ion and electron beams at Saturn and their relationship to infrared auroral arcs

Research output: Contribution to journalJournal article


  • S. V. Badman
  • N. Achilleos
  • C. S. Arridge
  • K. H. Baines
  • R. H. Brown
  • E. J. Bunce
  • A. J. Coates
  • S. W. H. Cowley
  • M. K. Dougherty
  • M. Fujimoto
  • G. Hospodarsky
  • S. Kasahara
  • T. Kimura
  • H. Melin
  • D. G. Mitchell
  • T. Stallard
  • C. Tao
Article numberA01211
<mark>Journal publication date</mark>01/2012
<mark>Journal</mark>Journal of Geophysical Research
Issue numberA1
Number of pages12
<mark>Original language</mark>English


We present Cassini Visual and Infrared Mapping Spectrometer observations of infrared auroral emissions from the noon sector of Saturn's ionosphere revealing multiple intense auroral arcs separated by dark regions poleward of the main oval. The arcs are interpreted as the ionospheric signatures of bursts of reconnection occurring at the dayside magnetopause. The auroral arcs were associated with upward field-aligned currents, the magnetic signatures of which were detected by Cassini at high planetary latitudes. Magnetic field and particle observations in the adjacent downward current regions showed upward bursts of 100–360 keV light ions in addition to energetic (hundreds of keV) electrons, which may have been scattered from upward accelerated beams carrying the downward currents. Broadband, upward propagating whistler waves were detected simultaneously with the ion beams. The acceleration of the light ions from low altitudes is attributed to wave-particle interactions in the downward current regions. Energetic (600 keV) oxygen ions were also detected, suggesting the presence of ambient oxygen at altitudes within the acceleration region. These simultaneous in situ and remote observations reveal the highly energetic magnetospheric dynamics driving some of Saturn's unusual auroral features. This is the first in situ identification of transient reconnection events at regions magnetically conjugate to Saturn's magnetopause.

Bibliographic note

Copyright 2012 by the American Geophysical Union