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Detection of the J-10 Manifold of the Pure Rotational Band of Phosphine on Saturn (1984)

Rank, D. M. ; Mckibbin, D. D. ; Goorvitch, D. ; [et al.]

In: CASI

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Publication Date: 2014-09-17

Description: The detection of the J = 10 manifold of the pure rotational band of PH3 on Saturn is reported. The observations were made from the far-infrared cooled grating spectrometer. The wavelengths and observed brightness temperatures for the full disk plus rings are 89 + or - 3 K at 97.04 micrometer, 77 + or - 3 K at 102.72 micrometer, 77 + or - 3 K at 102.94 micrometer, and 83 + or - 3 K at 105.12 micrometers. The points of 97.04 and 105.12 micrometers establish the continuum level and the two points near 103 micrometers measure the depth of the PH3 manifold. After the flux due to the rings is subtracted, the depth of the feature is 16 + or - 6 K relative to the nearby 102 K continuum. These results are compared to theoretical models which parameterize the PH3 mixing ratio as x = x sub zero (P/P sub zero)(alpha) for P P sub zero and as x = x sub zero for P or = P, where P is the total pressure and alpha = H/h is the ratio of the dynamical scale height (H) and the scale height for decreasing the PH3 mixing ratio (h). The parameters x sub zero, P sub zero, and h were varied, as well as the H/He mixing ratio and the pressure-temperature profile. The data are well fitted using pressure-temperature profiles. The preferred values of h, P sub zero, and x sub zero imply that there is little or no PH3 above the thermal inversion and that the mixing ratio below the inversion is consistent with PH3 being 1 to 4 times overabundant relative to the solar P/H ratio.

Keywords: LUNAR AND PLANETARY EXPLORATION

Type: Airborne Astron. Symp.; p 76-80

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2

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Far infrared spectrophotometry of Jupiter and Saturn (1978)

Erickson, E. F. ; Simpson, J. P. ; Goorvitch, D. ; [et al.]

In: Other Sources

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Publication Date: 2011-08-17

Description: Infrared spectral measurements of Mars, Jupiter, and Saturn were obtained from 100 to 470 kaysers and, by taking Mars as a calibration source, brightness temperatures of Jupiter and Saturn were determined with approximately 5 kayser resolution. Internal luminosities were determined from the data and are reported to be approximately 8 times 10 to the minus tenth power of the sun's luminosity for Jupiter and approximately 3.6 times 10 to the minus tenth power of the sun's luminosity for Saturn. Comparison of data with spectra predicted by models suggests the need for an opacity source in addition to gaseous hydrogen and ammonia to help explain Jupiter's observed spectrum in the vicinity of 250 kaysers.

Keywords: LUNAR AND PLANETARY EXPLORATION

Type: Icarus; 35; July 197

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3

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The mean Jovian temperature structure derived from spectral observations from 105 to 630 cm kaysers (1979)

Simpson, J. P. ; Tokunaga, A. T. ; Erickson, E. F. ; [et al.]

In: Other Sources

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Publication Date: 2011-08-17

Description: Far infrared observations of the thermal emission of Jupiter are used to determine the temperature at 1 bar. High-altitude observations of the whole-disk brightness temperature of Jupiter in the range of 100 to 347 kaysers were inverted to obtain a P-T profile between 1.5 and 0.06 atm, assuming as opacity sources the H2 collisionally induced continuum and the rotation inversion bands of ammonia. The P-T profile derived from the spectrum reproduces the main features of the observed spectrum, with a slightly improved fit if the effects of ammonia haze opacity or NH3 supersaturation in the saturated region are taken into account. The Jovian temperature is found to be 160 + or - 7 K at 1 bar, and 105 + or - 3 K at the inversion level at 0.15 bar. The 1-bar temperature is shown to be consistent with Jovian interior models which match the observed gravitational moment.

Keywords: LUNAR AND PLANETARY EXPLORATION

Type: Icarus; 40; Oct. 197

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4

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The ammonia mixing ratio in Jupiter's stratosphere (1978)

Goorvitch, D.

In: Other Sources

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Publication Date: 2011-08-17

Description: The paper describes the theory that underlies the model calculations which show that the far-infrared bands of ammonia are very sensitive to the ammonia distribution above the Jovian atmospheric inversion layer. Observation of the J = 5 and J = 6 ammonia bands at moderate resolution might permit choice between a cold trap model or the irreversible uv photodestruction model for the ammonia distribution. The lack of prominent emission cores in the NH3 rotation-inversion lines only implies that the mixing ratio is low. The ammonia is uniformly mixed if the inversion temperature is low but, at a higher inversion temperature, emission cores will be observed unless the photodissociation is extremely efficient down to at least the inversion layer.

Keywords: LUNAR AND PLANETARY EXPLORATION

Type: Icarus; 36; Oct. 197

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5

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Far-infrared spectrophotometry of Saturn and its rings (1982)

Haas, M. R. ; Goorvitch, D. ; Mckibbin, D. D. ; [et al.]

In: Other Sources

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Publication Date: 2011-08-18

Keywords: LUNAR AND PLANETARY EXPLORATION

Type: Icarus; 51; Sept

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6

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Theoretical brightness temperature profiles of atmospheric pure H2 rotational quadrupole lines - Jupiter and Uranus (1977)

Goorvitch, D. ; Chackerian, C., Jr.

In: Other Sources

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Publication Date: 2011-08-17

Description: With the advent of high-resolution instruments and their use high above most of the telluric water vapor, the hydrogen pure rotational quadrupole lines at 28, 17, and 12 microns from the atmospheres of the outer planets may be observed. Best values for the line strengths, pressure-broadening coefficients, diffusion constants, and pressure shifts for these rotational transitions are calculated. The collisionally narrowed Galatry profile is used to calculate brightness temperature line profiles for these H2 transitions for the outer planets, Jupiter and Uranus. The effects of the H2 rotational-translational continuum and of the NH3 v2 band are also included.

Keywords: LUNAR AND PLANETARY EXPLORATION

Type: Icarus; 32; Nov. 197

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7

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A determination of the composition of the Venus clouds from aircraft observations in the near infrared (1975)

Augason, G. C. ; Witteborn, F. C. ; Baldwin, B. J. ; [et al.]

In: Other Sources

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Publication Date: 2011-08-16

Description: Summary of the evidence showing that the first optical depth of the Venus cloud layer is composed of a water solution of sulfuric acid, including earlier aircraft observations of Venus' reflectivity in the region from 1 to 4 microns obtained at a phase angle of 120 deg. Analyses of these aircraft results indicated that of all the proposed cloud candidates only a sulfuric acid solution with a concentration of 75% or more H2SO4 by weight was consistent with the observed 3-micron cloud feature. Aircraft observations of Venus are presented which were obtained in the same spectral region at a phase angle of 40 deg and in the region from 3 to 6 microns at a phase angle of 136 deg. Comparing the two sets of observations in the region from 1 to 4 microns, a striking phase effect is found: the reflectivity is much lower in the 3-micron region and there is a much more marked decline between 1.3 and 2.5 microns for the data obtained at the smaller phase angle. The observations made at the 40-deg phase angle are consistent with the theoretical behavior of a sulfuric acid cloud and imply that the sulfuric acid is present to at least many tens of optical depth below the cloud tops. Arguments concerning the concentration of the solution are reviewed, and it is concluded that the best current estimate is about 85% H2SO4 by weight.

Keywords: LUNAR AND PLANETARY EXPLORATION

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8

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Are the aerosols on Uranus and Neptune composed of methane photopolymers? (1986)

Podolak, M. ; Giver, L. ; Goorvitch, D.

In: CASI

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Publication Date: 2013-08-31

Description: The measured optical properties of photochemically produced aerosols in an adding-doubling radiative transfer code were used to match various points in the spectra of Uranus and Neptune. How well these points are fit are shown by different assumptions regarding the size and distribution of these aerosols in the Uranus and Neptune atmospheres. The consistency of these derived distributions with those expected from computations of the sedimentation rate of such aerosols is discussed.

Keywords: LUNAR AND PLANETARY EXPLORATION

Type: NASA. Goddard Inst. for Space Studies The Jovian Atmospheres; p 273

Format: application/pdf

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9

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Pressure-induced H2 opacity in the 5-micron region (1982)

Goorvitch, D. ; Tipping, R. H.

In: Other Sources

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Publication Date: 2011-08-18

Description: The H2 opacity arising from the pure-rotational hexadecapole-induced transitions occurring during H2-H2 and H2-He collisions, and from the hexadecapole-induced and the quadrupole-induced transitions in H2-He collisions, has been calculated. The hexadecapole-induced and quadrupole-induced contributions from H2-H2 collisions are important H2 opacities in the frequency range from 700-3000/cm for temperatures appropriate to the outer planets. It is concluded that this opacity is needed in addition to the opacity from the extrapolation of the 0-0 and 1-0 H2-H2 collisionally-induced bands to interpret the spectrum at 5 microns for the outer planets.

Keywords: LUNAR AND PLANETARY EXPLORATION

Type: Journal of Quantitative Spectroscopy and Radiative Transfer; 27; Apr. 198

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10

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Observations of the J = 10 manifold of the pure rotational band of phosphine on Saturn (1985)

Haas, M. R. ; Goorvitch, D. ; Rank, D. M. ; [et al.]

In: Other Sources

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Publication Date: 2011-08-19

Description: Saturn was observed in the vicinity of the J = 10 manifold of the pure rotational band of phosphine on 1984 July 10 and 12 from NASA's Kuiper Airborne Observatory with the facility far-infrared cooled grating spectrometer. On each night observations of the full disk plus rings were made at 4 to 6 discrete wavelengths which selectively sampled the manifold and the adjacent continuum. The previously reported detection of this manifold is confirmed. After subtraction of the flux due to the rings, the data are compared with disk-averaged models of Saturn. It is found that PH3 must be strongly depleted above the thermal inversion (approx. 70 mbar). The best fitting models consistent with other observational constraints indicate that PH3 is significantly depleted at even deeper atmospheric levels (or = 500 mbar), implying an eddy diffusion coefficient for Saturn of 10 to the 4 cm sq/sec.

Keywords: LUNAR AND PLANETARY EXPLORATION

Type: Icarus (ISSN 0019-1035); 64; 549-556

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