On the altitude dependence of transversely heated O+ distributions in the cusp/cleft

Academic Article

Abstract

  • Abstract. The present paper focuses on the altitude dependence of oxygen ion conics in the dayside cusp/cleft region. Here, combining oxygen data from the Akebono, Interball-2 and Cluster satellites allows, for the first time, one to follow the global development of energetic (up to ~10keV) ion outflow over a continuous and broad altitude range up to about 5.5 Earth radii (RE). According to earlier statistical studies, the results are consistent with a height-integrated energization of ions at altitudes up to 3.5 RE. Higher up, the results inferred from Cluster observations put forward evidence of a saturation of both a transverse energization rate and ion gyroradii. We suggest that such results may be interpreted as finite perpendicular wavelength effects (a few tens of km) in the wave-particle interactions. To substantiate the suggestion, we carry out two-dimensional, Monte Carlo simulations of ion conic production that incorporate such effects and limited residence times due to the finite latitudinal extent of the heating region.Key words. Magnetospheric physics (auroral phenomena) – Space plasma physics (charged particle motion and acceleration; wave-particle interactions)
  • Authors

  • Bouhram, M
  • Klecker, B
  • Miyake, W
  • Reme, H
  • Sauvaud, JA
  • Malingre, M
  • Kistler, Lynn
  • Blagau, A
  • Status

    Publication Date

  • 2004
  • Keywords

  • auroral phenomena
  • charged particle motion and acceleration
  • magnetospheric physics
  • space plasma physics
  • wave-particle interactions
  • Digital Object Identifier (doi)

    Start Page

  • 1787
  • End Page

  • 1798
  • Volume

  • 22
  • Issue

  • 5