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1

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Venus cloud properties - Infrared opacity and mass mixing ratio (1975)

Kunde, V. G. ; Herath, L. W. ; Maguire, W. C. ; [et al.]

In: Other Sources

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Publication Date: 2011-08-16

Description: By using the Mariner 5 temperature profile and a homogeneous cloud model, and assuming that CO2 and cloud particles are the only opacity sources, the wavelength dependence of the Venus cloud opacity is inferred from the infrared spectrum of the planet between 450 and 1250 per cm. Volume extinction coefficients varying from 0.000005 to 0.000015 per cm, depending on the wavelength, are determined at the tropopause level of 6110 km. By using all available data, a cloud mass mixing ratio of approximately 0.000005 and a particle concentration of about 900 particles per cu cm at this level are also inferred. The derived cloud opacity compares favorably with that expected for a haze of droplets of a 75% aqueous solution of sulfuric acid.

Keywords: LUNAR AND PLANETARY EXPLORATION

Type: Icarus; 25; May 1975

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2

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Infrared observations of the Neptunian system (1989)

Flasar, F. M. ; Conrath, B. ; Pirraglia, J. ; [et al.]

In: Other Sources

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Publication Date: 2011-08-19

Description: Voyager 2's IR observations of Neptune encompass thermal emissions and broadband radiometer measurements of reflected solar radiation. Temperature maps were obtained for the planet between 80 deg S and 30 deg N for two atmospheric layers, one in the lower stratosphere and the other in the troposphere. The relatively warm pole and equator, with cooler midlatitudes, are qualitatively similar to Uranus, despite the two planets' very different obliquities and internal heat fluxes. Powerful wavelike longitudinal thermal structure is noted, of which some appears to be associated with the Great Dark Spot; a localized cold region uncorrelated with any visible feature is found in the lower stratosphere.

Keywords: LUNAR AND PLANETARY EXPLORATION

Type: Science (ISSN 0036-8075); 246; 1454-145

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3

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Infrared observations of the Uranian system (1986)

Conrath, B. ; Horn, L. ; Schulte, P. ; [et al.]

In: Other Sources

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Publication Date: 2011-08-19

Description: Initial results are presented from analyses of IR interferometer spectrometer data collected by Voyager 2 during passes of Uranus and the moons Miranda and Ariel. The data covered reflected solar radiation in the visible and near-IR and thermal emissions between 25 and 50 microns. An equatorial atmospheric He mole fraction of 0.10-0.20 and a mass fraction of 0.16-0.34 was observed for Uranus. Para-hydrogen was also a significant fraction Uranus CH4 atmosphere. Average polar and equatorial spectra were employed to generate vertical temperature profiles between 60-900 mbar, with the finding that the temperatures at the equator and the poles are markedly similar between 400-900 mbar. The effective temperature of Uranus had a calculated upper limit of about 59.4 K, while the subsolar temperatures of Miranda and Arial were around 86 and 84 K, respectively. The albedos of the two satellites indicated surface microstructures composed of isotopically scattering grains.

Keywords: LUNAR AND PLANETARY EXPLORATION

Type: Science (ISSN 0036-8075); 233; 70-74

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4

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Infrared observations of the Saturnian system from Voyager 1 (1981)

Conrath, B. ; Kunde, V. ; Pearl, J. ; [et al.]

In: Other Sources

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Publication Date: 2011-08-18

Description: Atmospheric chemistry analyses of Saturn based on Voyager 1 infrared spectral and radiometric data are presented, including characteristics of the planet's rings and of Titan and other satellites. Infrared spectra of Saturn indicate the presence of H2, CH4, NH3, PH3, C2H2, and C2H6, with the possibility of C3H4 and C3H8. The atmospheric thermal structure of the planet shows hemispheric asymmetries that are consistent with seasonally varying insolation response, with an extensive small-scale latitudinal structure. Atmospheric chemistries of Titan, and optical and thermal characteristics for the rings of Saturn, are also given.

Keywords: LUNAR AND PLANETARY EXPLORATION

Type: Science; 212; Apr. 10

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5

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Albedo, internal heat, and energy balance of Jupiter - Preliminary results of the Voyager infrared investigation (1981)

Pirraglia, J. A. ; Kunde, V. G. ; Conrath, B. J. ; [et al.]

In: Other Sources

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Publication Date: 2011-08-18

Description: Full disk measurements recorded by the 0.4-1.7 micron radiometer on Voyager 1 indicate a geometric albedo of 0.274 + or - 0.013. This measurement and the Pioneer-based phase integral of 1.25 yield a Jovian Bond albedo of 0.343 + or - 0.032. Infrared spectra yield a thermal emission of 1.359 + or - 0.014 x .001 W/sq cm, which corresponds to an equivalent blackbody temperature of 124.4 + or - 0.3 K. In addition, the internal heat flux of Jupiter is estimated to be 5.444 + or - 0.425 x .0001 W/sq cm, and the energy balance defined as the ratio of emitted thermal to absorbed solar energy is 1.668 + or - 0.085.

Keywords: LUNAR AND PLANETARY EXPLORATION

Type: Journal of Geophysical Research; 86; Sept. 30

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6

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The helium abundance of Jupiter from Voyager (1981)

Chedin, A. ; Gautier, D. ; Flasar, M. ; [et al.]

In: Other Sources

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Publication Date: 2011-08-18

Description: The helium abundance in the Jovian atmosphere is derived from Voyager 1 data by two methods. The first method uses only infrared spectra from selected locations on the planet while the second method uses a thermal profile independently derived from radio occultation measurements and infrared spectra recorded near the occultation point. A hydrogen mole fraction of 0.897 plus or minus 0.030 is obtained from the first method, while the second method gives 0.880 plus or minus 0.036, corresponding to helium mass fractions of 0.19 plus or minus 0.05 and 0.21 plus or minus 0.06, respectively. The estimated errors for the first method are primarily due to systematic uncertainties in the H2 and He absorption coefficients, while those for the second method result mainly from errors in the radio occultation profile and are less well known. Random errors in the measured infrared spectra are found to be negligible in both cases. The results are consistent with a uniform mix of hydrogen and helium within Jupiter's interior, but a modest amount of helium depletion (Delta Y equal to or less than 0.05) cannot be excluded.

Keywords: LUNAR AND PLANETARY EXPLORATION

Type: Journal of Geophysical Research; 86; Sept. 30

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7

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Infrared observations of the Saturnian system from Voyager 2 (1982)

Pearl, J. ; Pirraglia, J. ; Samuelson, R. ; [et al.]

In: Other Sources

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Publication Date: 2011-08-18

Description: During the passage of Voyager 2 through the Saturn system, infrared spectral and radiometric data were obtained for Saturn, Titan, Enceladus, Tethys, Iapetus, and the rings. Combined Voyager 1 and Voyager 2 observations of temperatures in the upper troposphere of Saturn indicate a seasonal asymmetry between the northern and southern hemispheres, with superposed small-scale meridional gradients. Comparison of high spatial resolution data from the two hemispheres poleward of 60 deg latitude suggests an approximate symmetry in the small-scale structure, consistent with the extension of a symmetric system of zonal jets into the polar regions. Longitudinal variations of 1 to 2 K are observed. Disk-averaged infrared spectra of Titan show little change over the 9-month interval between Voyager encounters. By combining Voyager 2 temperature measurements with ground-based geometric albedo determinations, phase integrals of 0.91 plus or minus 0.13 and 0.89 plus or minus 0.09 were derived for Tethys and Enceladus, respectively. The subsolar point temperature of dark material on Iapetus must exceed 110 K. Temperatures (and infrared optical depths) for the A and C rings and for the Cassini division are 69 plus or minus 1 K (0.40 plus or minus 0.05), 85 plus or minus 1 K (0.10 plus or minus 0.03), and 85 plus or minus 2 K (0.07 plus or minus 0.04), respectively.

Keywords: LUNAR AND PLANETARY EXPLORATION

Type: Science; 215; Jan. 29

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8

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Measurements of H2O in Jupiter's Atmosphere from 5 Microns Airborne Observations (1984)

Kunde, V. G. ; Larson, H. P. ; Fink, U. ; [et al.]

In: CASI

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Publication Date: 2014-09-17

Description: Measurement of the abundance and vertical distribution of H2O in Jupiter's atmosphere is discussed. Water was first detected using the Kuiper airborne observatory (KAO) and has also been observed at 5 micrometers by the Voyager infrared spectrometer, IRIS. Studies of H2O in the atmospheres of other planets require special high altitude facilities to reduce the interference of telluric H2O. Jovian H2O absorption lines are overwhelmed by terrestrial H2O at ground-based observatories but they are readily apparent in airborne spectra. Typical column abundances of H2O above ground-based telescopes are about 3000 precipitable micrometers versus only 10 pr micrometers above the KAO at the 12.5 km level. For comparison, there is about 150 pr micrometers H2O above the 3 bar level on Jupiter. Airborne observations also take advantage of cryogenic detectors which have not been used thus far on deep space probes.

Keywords: LUNAR AND PLANETARY EXPLORATION

Type: NASA. Ames Research Center Airborne Astron. Symp.; p 69-75

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9

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The tropospheric gas composition of Jupiter's north equatorial belt /NH3, PH3, CH3D, GeH4, H2O/ and the Jovian D/H isotopic ratio (1982)

Gautier, D. ; Chedin, A. ; Husson, N. ; [et al.]

In: Other Sources

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Publication Date: 2011-08-18

Description: (Previously announced in STAR as N82-20103)

Keywords: LUNAR AND PLANETARY EXPLORATION

Type: Astrophysical Journal; vol. 263

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10

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The Voyager infrared spectroscopy and radiometry investigation (1977)

Hanel, R. ; Pearl, J. ; Lowman, P. ; [et al.]

In: Other Sources

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Publication Date: 2011-08-17

Description: Two interferometers covering the spectral ranges 17 to 170 microns and 1.4 to 10 microns and a radiometer covering the range 0.4 to 1.2 microns are employed in the Voyager infrared spectroscopy and radiometry investigation. The study will focus on cloud and gas composition of planets and satellites with substantial atmospheres (including isotopic ratios), haze scale height, atmospheric vertical thermal structure, local and planetary circulation, and planetary energy balance. Surface temperatures and thermal properties of satellites with tenuous atmospheres will also be assessed, and the particle size distribution and thermal characteristics of Saturn's rings will be analyzed.

Keywords: LUNAR AND PLANETARY EXPLORATION

Type: Space Science Reviews; 21; Nov. 197

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