Response of the upper atmosphere to variations in the solar soft x-ray irradiance. Ph.D. Thesis
Terrestrial far ultraviolet (FUV) airglow emissions have been suggested as a means for remote sensing the structure of the upper atmosphere. The energy which leads to the excitation of FUV airglow emissions is solar irradiance at extreme ultraviolet (EUV) and soft x-ray wavelengths. Solar irradiance at these wavelengths is known to be highly variable; studies of nitric oxide (NO) in the lower thermosphere have suggested a variability of more than an order of magnitude in the solar soft x-ray irradiance. To properly interpret the FUV airglow, the magnitude of the solar energy deposition must be known. Previous analyses have used the electron impact excited Lyman-Birge-Hopfield (LBH) bands of N2 to infer the flux of photoelectrons in the atmosphere and thus to infer the magnitude of the solar irradiance. This dissertation presents the first simultaneous measurements of the FUV airglow, the major atmospheric constituent densities, and the solar EUV and soft x-ray irradiances. The measurements were made on three flights of an identical sounding rocket payload at different levels of solar activity. The linear response in brightness of the LBH bands to variations in solar irradiance is demonstrated. In addition to the N2 LBH bands, atomic oxygen lines at 135.6 and 130.4 nm are also studied. Unlike the LBH bands, these emissions undergo radiative transfer effects in the atmosphere. The OI emission at 135.6 nm is found to be well modeled using a radiative transfer calculation and the known excitation processes. Unfortunately, the assumed processes leading to OI 130.4 nm excitation are found to be insufficient to reproduce the observed variability of this emission. Production of NO in the atmosphere is examined; it is shown that a lower than previously reported variability in the solar soft x-ray irradiance is required to explain the variability of NO.
- Research Organization:
- Colorado Univ., Boulder, CO (United States). Cooperative Inst. for Research in Environmental Sciences
- OSTI ID:
- 201591
- Report Number(s):
- N-96-18502; NASA-CR-200094; NAS-1.26:200094; NIPS-96-07663; CNN: NASA ORDER S-09936-F; TRN: 9618502
- Resource Relation:
- Other Information: TH: Ph.D. Thesis; PBD: Jan 1995
- Country of Publication:
- United States
- Language:
- English
Similar Records
Filters for the International Solar Terrestrial Physics Mission far-ultraviolet imager
Satellite remote sensing of thermospheric O/N{sub 2} and solar EUV 1. Theory