Authors: R.F. Wimmer-Schweingruber, R. von Steiger, J. Geiss,
G. Gloeckler, F.M. Ipavich, and B. Wilken.
Reference: Space Science Reviews, 85, 387-396, 1998.
Abstract:
Recent observations with UVCS on SOHO of high outflow velocities of
O5+ at low coronal heights have spurred much discussion about the
dynamics of solar wind acceleration. On the other hand, O6+ is the
most abundant oxygen charge state in the solar wind, but is not
observed by UVCS or by SUMER because this helium-like ion has no
emission lines falling in the wave lengths observable by these
instruments. Therefore, there is considerable interest in observing
O5+ in situ in order to understand the relative importance
of O5+ with respect to the much more abundant O6+. High speed
streams are the prime candidates for the search for O5+ because
all elements exhibit lower freezing-in temperatures in high speed
streams than in the slow solar wind. The Ulysses spacecraft was
exposed to long time periods of high speed streams during its passage
over the polar regions of the Sun. The Solar Wind Ion Composition
Spectrometer (SWICS) on Ulysses is capable of resolving this rare
oxygen charge state. We present the first measurement of O5+ in
the solar wind and compare these data with those of the more abundant
oxygen species O6+ and O7+. We find that our observations of
the oxygen charge states can be fitted with a single coronal electron
temperature in the range of 1.0 to 1.2 MK assuming collisional
ionization/recombination equilibrium with an ambient Maxwellian
electron gas.