Monitoring the Outer Region of the Neutral Atmosphere

S. M. Nossal, E. J. Mierkiewicz, F. L. Roesler, L. M. Haffner, R. J. Reynolds, R. C. Woodward

Research output: Contribution to conferencePresentation

Abstract

Hydrogen is a primary constituent of the geocorona and is a chemical byproduct of species below such as methane and water vapor, two greenhouse gases. The solar cycle is a dominant source of natural variability in this region and must be accounted for when isolating the effects of coupling processes from below, including that due to potential long-term change in the region. Observations by the Wisconsin H-alpha Mapper Fabry-Perot of geocoronal hydrogen Balmer-alpha emissions over solar cycle 23 have quantified a factor of 1.5 ± 0.15 higher intensities at solar maximum than at solar minimum. These observations are consistent with Fabry-Perot observations from Wisconsin during solar cycle 22. All observations have been consistently calibrated for intensity using the North American Nebula. We used the LYAO_RT radiative transfer code of Bishop to compare the observed Balmer-alpha intensities with intensities calculated using the hydrogen density distribution in the Mass-Spectrometer-Incoherent-Scatter (MSIS) model, a major empirical model used by the middle and upper atmospheric research communities. The MSIS distribution yields a solar maximum to minimum ratio similar to that observed; however, significant differences in magnitude between predicted and observed intensities highlight the need for improved upper atmospheric hydrogen density determinations.
Original languageAmerican English
StatePublished - May 2009
Externally publishedYes
EventAmerican Geophysical Union Joint Meeting - Toronto, Canada
Duration: May 1 2009 → …

Conference

ConferenceAmerican Geophysical Union Joint Meeting
Period5/1/09 → …

Keywords

  • airglow and aurora
  • exosphere
  • thermosphere
  • climatology

Disciplines

  • Astrophysics and Astronomy

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