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1

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Line intensities of the phosphine dyad at 10 mu m (2002)

Sams, I. ; Kleiner, C. ; Brown, R. L. ; [et al.]

In: Other Sources

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Publication Date: 2018-06-08

Description: Over 1,000 measured line intensities of phosphine are reported for the 830 to 1310 cm-1 region that contains the two lowest fundamentals in Coriolis interaction.

Keywords: Atomic and Molecular Physics

Type: Journal of molecular spectroscopy

Format: text

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2

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Hydrogen Concentrations on C-class Asteroids from Remote Sensing (2002)

Lebofsky, L. A. ; Rivkin, A. S. ; Trilling, D. E. ; [et al.]

In: Other Sources

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Publication Date: 2019-07-18

Description: We present spectroscopic observations of 16 asteroids from 1.9-3.6 microns, collected from the United Kingdom Infrared Telescope (UKIRT) from 1996-2000. Of these 16 asteroids, 11 show some evidence of a 3-micron hydrated mineral absorption feature greater than 2 sigma at 2.9 microns. Using relations first recognized for carbonaceous chondrite powders by Miyamoto and Zolensky (1994) and Sato et al. (1997), we have determined the hydrogen/silicon ratio for these asteroids and calculated their equivalent water contents, assuming all the hydrogen was in water. The asteroids split into two groups, roughly defined as equivalent water contents of greater than approx. 7% (eight asteroids) and less than approx. 3 % (the remaining eight asteroids). This latter group includes some asteroids for which there is a small but statistically significant 3-micron band of non-zero depth. The G-class asteroids in the survey have higher water contents, consistent with CM chondrites. This strengthens the connection between CM chondrites and G asteroids that was proposed by Burbine (1998). We find that the 0.7-micron and 3-micron band depths are correlated for the population of target objects.

Keywords: Astrophysics

Format: text

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3

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Near-Infrared Spectroscopy of Himalia An Irregular Jovian Satellite (2002)

Coradini, A. ; Clark, R. ; Capaccioni, F. ; [et al.]

In: Other Sources

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Publication Date: 2019-07-18

Description: Spectra of the irregular Jovian satellite Himalia were obtained with the Visual and Infrared Mapping Spectrometer (VIMS) onboard Cassini during the Jupiter Flyby on December 18-19, 2000. These are the first spectral data of an irregular satellite beyond 2.5 microns. Additional information is contained in the original extended abstract.

Keywords: Lunar and Planetary Science and Exploration

Type: Lunar and Planetary Science XXXIII; LPI-Contrib-1109

Format: text

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4

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Near-Infrared Spectrophotometry of Phobos and Deimos (2002)

Plassmann, J. H. ; Trilling, D. E. ; Brown, R. H. ; [et al.]

In: Other Sources

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Publication Date: 2019-07-13

Description: We have observed the leading and trailing hemispheres of Phobos from 1.65 to 3.5 microns and Deimos from 1.65 to 3.12 microns near opposition. We find the trailing hemisphere of Phobos to be brighter than its leading hemisphere by 0.24 +/- 0.06 magnitude at 1.65 microns and brighter than Deimos by 0.98 +/- 0.07 magnitude at 1.65 microns. We see no difference larger than observational uncertainties in spectral slope between the leading and trailing hemispheres when the spectra are normalized to 1.65 microns. We find no 3-micron absorption feature due to hydrated minerals on either hemisphere to a level of approx. 5-10% on Phobos and approx. 20% on Deimos. When the infrared data are joined to visible and near-IR data obtained by previous workers, our data suggest the leading (Stickney-dominated) side of Phobos is best matched by T-class asteroids. The spectral slope of the trailing side of Phobos and leading side of Deimos are bracketed by the D-class asteroids. The best laboratory spectral matches to these parts of Phobos are mature lunar soils and heated carbonaceous chondrites. The lack of 3-micron absorption features on either side of Phobos argues against the presence of a large interior reservoir of water ice according to current models of Phobos' interior.

Keywords: Astrophysics

Type: Icarus (ISSN 0019-1035); 156; 64-75

Format: text

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5

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Near-Infrared Spectrophotometry of Phobos and Deimos (2002)

Bell, J. F., III ; Rivkin, A. S. ; Brown, R. H. ; [et al.]

In: Other Sources

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Publication Date: 2019-07-13

Description: We have observed the leading and trailing hemispheres of Phobos from 1.65 to 3.5 microns and Deimos from 1.65 to 3.12 microns near opposition. We find the trailing hemisphere of Phobos to be brighter than its leading hemisphere by 0.24 +/- 0.06 magnitude at 1.65 microns and brighter than Deimos by 0.98 +/- 0.07 magnitude at 1.65 microns. We see no difference larger than observational uncertainties in spectral slope between the leading and trailing hemispheres when the spectra are normalized to 1.65 microns. We find no 3-microns absorption feature due to hydrated minerals on either hemisphere to a level of approx. 5 - 10% on Phobos and approx. 20% on Deimos. When the infrared data are joined to visible and near-IR data obtained by previous workers, our data suggest the leading (Stickney-dominated) side of Phobos is best matched by T-class asteroids. The spectral slope of the trailing side of Phobos and leading side of Deimos are bracketed by the D-class asteroids. The best laboratory spectral matches to these parts of Phobos are mature lunar soils and heated carbonaceous chondrites. The lack of 3-microns absorption features on either side of Phobos argues against the presence of a large interior reservoir of water ice according to current models of Phobos' interior.

Keywords: Lunar and Planetary Science and Exploration

Type: Icarus (ISSN 0019-1035); 156; 64-75

Format: text

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6

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Near-Infrared Spectrophotometry of Phobos and Deimos (2002)

Brown, R. H. ; Bell, J. F., III ; Plassmann, J. H. ; [et al.]

In: Other Sources

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Publication Date: 2019-07-13

Description: We have observed the leading and trailing hemispheres of Phobos from 1.65 to 3.5 micrometers and Deimos from 1.65 to 3.12 micrometers near opposition. We find the trailing hemisphere of Phobos to be brighter than its leading hemisphere by 0.24 plus or minus 0.06 magnitude at 1.65 micrometers and brighter than Deimos by 0.98 plus or minus 0.07 magnitude at 1.65 micrometers. We see no difference larger than observational uncertainties in spectral slope between the leading and trailing hemispheres when the spectra are normalized to 1.65 micrometers. We find no 3-micrometer absorption feature due to hydrated minerals on either hemisphere to a level of approximately 5-10% on Phobos and approximately 20% on Deimos. When the infrared data are joined to visible and nearby data obtained by previous workers, our data suggest the leading (Stickney-dominated) side of Phobos is best matched by T-class asteroids. The spectral slope of the trailing side of Phobos and leading side of Deimos are bracketed by the D-class asteroids. The best laboratory spectral matches to these parts of Phobos are mature lunar soils and heated carbonaceous chondrites. The lack of 3-micrometer absorption features on either side of Phobos argues against the presence of a large interior reservoir of water ice according to current models of Phobos' interior.

Keywords: Lunar and Planetary Science and Exploration

Type: Icarus (ISSN 0019-1035); 156; 64-75

Format: text

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7

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Intra-Engine Trace Species Chemistry (2002)

Waitz, Ian A. ; Brown, R. ; Lukachko, S. P. ; [et al.]

In: CASI

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Publication Date: 2019-07-10

Description: Prompted by the needs of downstream plume-wake models, the Massachusetts Institute of Technology (MIT) and Aerodyne Research Incorporated (ART) initiated a collaborative effort, with funding from the NASA AEAP, to develop tools that would assist in understanding the fundamental drivers of chemical change within the intra-engine exhaust flow path. Efforts have been focused on the development of a modeling methodology that can adequately investigate the complex intra-engine environment. Over the history of this project, our research has increasingly pointed to the intra-engine environment as a possible site for important trace chemical activity. Modeling studies we initiated for the turbine and exhaust nozzle have contributed several important capabilities to the atmospheric effects of aviation assessment. These include a more complete understanding of aerosol precursor production, improved initial conditions for plume-wake modeling studies, and a more comprehensive analysis of ground-based test cell and in-flight exhaust measurement data. In addition, establishing a physical understanding of important flow and chemical processes through computational investigations may eventually assist in the design of engines to reduce undesirable species.

Keywords: Mechanical Engineering

Format: application/pdf

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