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1

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Excitation of the low lying vibrational levels of H2O by O(3P) as measured on Spacelab 2 (1994)

Swenson, G. R. ; Meyerott, R. E. ; Koch, D. G. ; [et al.]

In: Other Sources

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Publication Date: 2011-08-24

Description: The data from the infrared telescope (IRT), which was flown on space shuttle Challenger Spacelab 2 mission (July 1985), were originally reported by Koch et al. (1987) as originating from near orbital emissions, primarily H2O. In this study, analysis of this data was extended to determine the collisional cross sections for the excitation of the low lying vibrational levels of H2O, present in the orbiter cloud, by atmospheric O(3P). The evaluation of the contribution to the measured signal from solar excitation and ram O excitation of outgassing H2O permits the determination of the H2O column density and the excitation cross section of the (101) level at an O(3P) velocity of approximately 7.75 km/s. Contributions to the radiation in the 1.7-3.0 micron band by transitions from the (100), (001), and multiquantum excited levels are discussed. The findings of the study are (1) the IRT data for the 4.5-9.5 micron and the nighttime data for the 1.7-3.0 micron sensors are consistent with being explained by collision excitation of H2O by O(3P), (2) diurnal variations of 4.5-9.5 micron intensities follow the model predicted O density for a full orbit, (3) daytime increases in the H2O cloud density were not evident, (4) the cross sections for the collisional excitation process are derived and compared to values computated by Johnson (1986) and Redmon et al. (1986), (5) theoretical investigation suggests greater than 60% of the radiation from H2O is a result of multiphoton emission resulting from collisional multiquanta excitation, and (6) the large daytime increase in the 1.7-3.0 micron intensity data suggests that O(+) may likely be instrumental in producing excited H2O(+) through charge exchange.

Keywords: GEOPHYSICS

Type: Journal of Geophysical Research (ISSN 0148-0227); 99; A9; p. 17,559-17,575

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2

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Topside observation of gravity waves (1994)

Geller, S. P. ; Mende, S. B. ; Spear, K. A. ; [et al.]

In: Other Sources

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Publication Date: 2011-08-24

Description: The AEPI (Atmospheric Emissions Photometric Imager) experiment on the ATLAS-1 shuttle mission (launched March 24, 1992) imaged the earth night airglow emission in O2 Atmospheric (0,0) bands, at 762.0 nm. Earthward views of O2 A bands show structure from gravity waves which exhibit extended horizontal structure with horizontal wavelenghts on the order of 50-100 km. These observations of the O2 A (0,0) bands are particularly interesting since in this wavelength the lower atmosphere absorbs all the earth-reflected emissions and most of the spectrally diffuse backgrounds. Herein we present observations of gravity waves using a topside airglow imaging technique.

Keywords: GEOPHYSICS

Type: Geophysical Research Letters (ISSN 0094-8276); 21; 21; p. 2283-2286

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3

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Ram vehicle glow spectrum - Implication of NO2 recombination continuum (1985)

Mende, S. B. ; Swenson, G. R. ; Clifton, K. S.

In: Other Sources

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Publication Date: 2011-08-19

Description: An experiment was operated on several Space Shuttle missions to provide spatial and spectral distributions of a ram glow associated with the Orbiter. The most recent data featured resolved spectrum and imagery of the glow with spectroscopic resolution of 34 A FWHM between 4000 and 8000 A. The spectrum of the glow on the Shuttle tail pod could be clearly separated from spectrum of the reflected light from the Orbiter. Analysis and comparison have been performed which strongly suggest the emission originates from recombination continuum of NO2. Both fast recombination (high temperature) and the spectral dependence in lifetime can describe the spectral difference. If the recombined NO2 retains 25 percent of the kinetic energy of the ram OI, the thickness of the glow layer can be explained by the lifetime of NO2 (2B1) recombination emission.

Keywords: GEOPHYSICS

Type: Geophysical Research Letters (ISSN 0094-8276); 12; 97-100

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4

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Temperature shape parameter of the thermosphere determined from probe data. (1969)

Swenson, G. R.

In: Other Sources

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Publication Date: 2011-08-12

Description: Thermosphere temperature shape parameters from probe flights, showing dependence on hour angle

Keywords: GEOPHYSICS

Type: ; ADEMIE DES SCIENCES

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5

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Diurnal variations in the thermosphere from a series of Marshall-University-of-Michigan probes. (1969)

Swenson, G. R. ; Weidner, D. K.

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Publication Date: 2011-08-12

Description: Rocket measurements of diurnal variations of F region concentrations and temperature of molecular N and O, showing disagreement with satellite drag data

Keywords: GEOPHYSICS

Type: ; TROPHYSICAL JOURNAL

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6

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Auroral thermosphere temperatures from observations of 6300 A emissions (1985)

Comfort, R. H. ; Swenson, G. R. ; Bird, J. C.

In: CASI

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Publication Date: 2019-06-28

Description: Doppler temperatures determined from observations of the atomic oxygen OI 6300 A line during March 1984 at the University of Alaska/Fairbanks are presented. Temperatures are obtained from Fabry-Perot Interferometer pressure scans using a Fourier transform smoothing and fitting technique; this technique is presented in detail. The temperatures and the spread in the temperatures are consistent from day to day. On the clear nights of March 10 to 13, the temperatures were 800, 750, 750 and 800 K, respectively, with a spread of + or - 100 K. These temperatures are compared to the MSIS (84) model atmosphere for similar geomagnetic conditions and found to be in general agreement; they are also consistent with results obtained by other investigators.

Keywords: GEOPHYSICS

Type: NASA-TM-86530 , NAS 1.15:86530

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7

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Atmospheric Emission Photometric Imaging on Spacelab (AEPI) (1980)

Swenson, G. R. ; Sandie, W. G. ; Banks, P. M. ; [et al.]

In: CASI

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Publication Date: 2016-06-07

Description: Two parallel detector systems are used for atmospheric emission photometric emission. The top system is a TV system using the image intensified S.E.C. tube as the detector. The bottom system, the photon counting array (P.C.A.), uses a microchannel plate intensified anode array tube and is equivalent to a 100 channel photomultiplier. For the television, the filters are selected by means of a filter wheel set. The field of view of the is interchangeable between 20 and 6 degrees, by means of a moveable prism. The quartz window mu channel plate intensifier is fiber optically coupled to a 40-25 demagnifying tube which is in turn coupled to the S.E.C. tube. The PCA channel has a fixed field of view of 4 deg and a remote control interchangeable photometric converter optics which converts the imaging array into a multichannel photometer. The mu channel plate array tube amplifies the photons into detectable counts for the PCA electronics. The entire system is pointed by a two axis gimbal. The flight equipment to be acquired consists of a gyro package and an interactive flight control unit panel. The gyro package is necessary because of the inadequate attitude reference supplied by the current Spacelab systems.

Keywords: GEOPHYSICS

Type: Space Plasma Phys. Active Expt.; p 9-26

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8

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Observations of E and F region Mg(+) from Spacelab 1 (1985)

Miller, K. L. ; Mende, S. B. ; Swenson, G. R.

In: Other Sources

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Publication Date: 2019-06-28

Description: Images of airglow at 2800 A were taken on the Spacelab 1 Shuttle mission and have been interpreted to be solar resonant emission of magnesium ions. On two orbital passes, observations were made near the magnetic equator while observing in the 2800-A channel. The observations were made near the sunset terminator (approximately 1800 LT), in winter (1983, day 335). Three separate emission clouds were observed, all of which extended well into the F region. The location of the clouds in horizontal space is shown. The processed images have been pseudocolored to highlight the intensity distribution in the clouds. Observations included clouds with apparent magnetic-field aligned striations. Bright emissions were observed at the magnetic equator, at 12-deg north magnetic latitude, and at 12-deg south magnentic latitude. Cloud-center brightnesses varied between 680 rayleighs and 1700 rayleighs.

Keywords: GEOPHYSICS

Type: Journal of Geophysical Research (ISSN 0148-0227); 90; 6667-667

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9

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Atmospheric emissions photometric imaging experiment (1984)

Swenson, G. R. ; Mende, S. B. ; Clifton, K. S.

In: Other Sources

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Publication Date: 2019-06-28

Description: The atmospheric emissions photometric imaging experiment was flown on Spacelab 1 to study faint natural and artificial atmospheric emission phenomena. The instrument imaged optical emission in the region 2000 to 7500 angstroms with a television system consisting of two optical channels, one wide-angle and one telephoto. A third optical channel imaged onto the photocathode of a microchannel plate photomultiplier tube that has 100 discrete anodes. A hand-held image intensifier camera with an objective grating permitted spectral analysis of the earth's airglow and the Shuttle glow. Preliminary data show magnesium ion emission features in the lower ionosphere as well as the spacecraft glow spectrum.

Keywords: GEOPHYSICS

Type: Science (ISSN 0036-8075); 225; 191-193

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10

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A study of a sector spectrophotometer and auroral O+(2P-2D) emissions (1976)

Swenson, G. R.

In: CASI

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Publication Date: 2019-06-27

Description: The metastable O+(2P-2D) auroral emission was investigated. The neighboring OH contaminants and low intensity levels of the emission itself necessitated the evolution of an instrument capable of separating the emission from the contaminants and having a high sensitivity in the wavelength region of interest. A new type of scanning photometer was developed and its properties are discussed. The theoretical aspects of auroral electron interaction with atomic oxygen and the resultant O+(2P-2D) emissions were examined in conjunction with N2(+)1NEG emissions. Ground based measurements of O+(2P-2D) auroral emission intensities were made using the spatial scanning photometer (sector spectrophotometer). Simultaneous measurements of N2(+)1NEG sub 1,0 emission intensity were made in the same field of view using a tilting photometer. Time histories of the ratio of these two emissions made in the magnetic zenith during auroral breakup periods are given. Theories of I sub 7319/I sub 4278 of previous investigators were presented. A rocket measurement of N2(+)1NEG sub 0,0 and O+(2P-2D) emission in aurora was examined in detail and was found to agree with the ground based measurements. Theoretical examination resulted in the deduction of the electron impact efficiency generating O+(2P) and also suggests a large source of O+(2P) at low altitude. A possible source is charge exchange of N+(1S) with OI(3P).

Keywords: GEOPHYSICS

Type: NASA-TN-D-8143

Format: application/pdf

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