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ON THE NATURE OF THE JOVIAN RED SPOT (1963)

Sagan, C.

In: Other Sources

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Publication Date: 2019-05-10

Description: Nature of the great red spot in south tropical zone of jupiters atmosphere

Keywords: BIOTECHNOLOGY

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ON THE NATURE OF THE JOVIAN RED SPOT (1963)

Sagan, C.

In: CASI

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Publication Date: 2019-05-11

Description: Surface and atmospheric features of jupiter related to jovian red spot movement

Keywords: BIOTECHNOLOGY

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3

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Organic solids produced by electrical discharge in reducing atmospheres - Tholin molecular analysis (1981)

Nagy, B. ; Sklarew, D. S. ; Sagan, C. ; [et al.]

In: Other Sources

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Publication Date: 2019-06-28

Description: The complex dark brown solid of a class called tholins, produced on passage of an electrical discharge through a roughly equimolar mixture of methane and ammonia with 2.6% water vapor, is analyzed by vacuum pyrolysis followed by gas chromatography and mass spectrometry. Pyrolyzates include a wide range of aliphatic and aromatic nitriles, alkanes, alkenes, aromatic hydrocarbons, pyrrole, and pyridine. This tholin is remarkably stable to 950 C. It and its degradation products are candidate constituents of planetary aerosols in the outer solar system and of the grains in the interstellar medium.

Keywords: INORGANIC AND PHYSICAL CHEMISTRY

Type: Icarus; 48; Nov. 198

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4

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Volcanic explosions and climatic change - A theoretical assessment (1976)

Summers, A. ; Pollack, J. B. ; Baldwin, B. ; [et al.]

In: Other Sources

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Publication Date: 2019-06-27

Description: A theoretical assessment is presented of the influence of volcanic activity on the climate. The methodology of radiative transfer calculations is described and the sources of the adopted parameters are considered. The dependence of various quantities of interest is plotted as a function of the change in the optical depth of the stratosphere at a reference wavelength. An investigation is conducted concerning the increase in optical depth produced by volcanic explosions. An estimate is obtained regarding the magnitude of the mean surface temperature change resulting from the added aerosols.

Keywords: GEOPHYSICS

Type: Journal of Geophysical Research; 81; Feb. 20

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5

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A search for life on earth at 100 meter resolution. (1971)

Wallace, D. ; Sagan, C.

In: Other Sources

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Publication Date: 2019-06-27

Description: Study of several thousand photos indicating that about 0.01 of Gemini and Apollo photographs of the earth at 100 m resolution reveal signs of life - rectangular arrays due to human agricultural and urban territoriality, roads, canals, jet contrails, and industrial pollution. Potential false positives - e.g., dunes, sand bars, jetstream clouds - abound. A curve is derived for the detectivity of contemporary life on earth, in a plot of ground resolution versus global coverage. A comparable biology on Mars would not have been detected by all observations of Mars through Mariner 7.

Keywords: GEOPHYSICS

Type: Icarus; 15; Dec. 197

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6

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Relationship of planetary quarantine to biological search strategy. (1968)

Sagan, C. ; Lederberg, J. ; Levinthal, E. C.

In: Other Sources

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Publication Date: 2019-07-27

Description: Planetary quarantine and biological search strategy, discussing Voyager-Mars mission configuration, sterilization, back contamination and decisions

Keywords: BIOTECHNOLOGY

Type: LIFE SCIENCES AND SPACE RESEARCH VI, COSPAR, PLENARY MEETING; JULY 27, 28, 1967; LONDON

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7

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Optical constants of solid methane (1990)

Bruel, C. ; Khare, Bishun N. ; Arakawa, E. T. ; [et al.]

In: CASI

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Publication Date: 2019-06-28

Description: Methane is the most abundant simple organic molecule in the outer solar system bodies. In addition to being a gaseous constituent of the atmospheres of the Jovian planets and Titan, it is present in the solid form as a constituent of icy surfaces such as those of Triton and Pluto, and as cloud condensate in the atmospheres of Titan, Uranus, and Neptune. It is expected in the liquid form as a constituent of the ocean of Titan. Cometary ices also contain solid methane. The optical constants for both solid and liquid phases of CH4 for a wide temperature range are needed for radiative transfer calculations, for studies of reflection from surfaces, and for modeling of emission in the far infrared and microwave regions. The astronomically important visual to near infrared measurements of solid methane optical constants are conspicuously absent from the literature. Preliminary results are presented on the optical constants of solid methane for the 0.4 to 2.6 micrometer region. Deposition onto a substrate at 10 K produces glassy (semi-amorphous) material. Annealing this material at approximately 33 K for approximately 1 hour results in a crystalline material as seen by sharper, more structured bands and negligible background extinction due to scattering. The constant k is reported for both the amorphous and the crystalline (annealed) states. Typical values (at absorption maxima) are in the .001 to .0001 range. Below lambda = 1.1 micrometers the bands are too weak to be detected by transmission through the films less than or equal to 215 micrometers in thickness, employed in the studies to date. Using previously measured values of the real part of the refractive index, n, of liquid methane at 110 K, n is computed for solid methane using the Lorentz-Lorenz relationship. Work is in progress to extend the measurements of optical constants n and k for liquid and solid to both shorter and longer wavelengths, eventually providing a complete optical constants database for condensed CH4.

Keywords: INORGANIC AND PHYSICAL CHEMISTRY

Type: NASA, Goddard Space Flight Center, First International Conference on Laboratory Research for Planetary Atmospheres; p 327-339

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Optical constraints of kerogen from 0.15 to 40 microns: Comparison with meteoritic organics (1990)

Thompson, W. R. ; Arakawa, E. T. ; Sagan, C. ; [et al.]

In: CASI

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Publication Date: 2019-06-28

Description: Kerogens are dark, complex organic materials produced on the Earth primarily by geologic processing of biologic materials, but kerogens have chemical and spectral similarities to some classes of highly processed extraterrestrial organic materials. Kerogen-like solids were proposed as constitutents of the very dark reddish surfaces of some asteroids and are also spectrally similar to some carbonaceous organic residues and the Iapetus dark material. Kerogen can thus serve as a useful laboratory analog to very dark, spectrally red extraterrestrial materials; its optical constants can be used to investigate the effects of particle size, void space and mixing of bright and dark components in models of scattering by dark asteroidal, cometary, and satellite surfaces. Measurements of the optical constants of both Type 2 kerogen and of macromolecular organic residue from the Murchison carbonaceous chondrite via transmission and reflection measurements on thin films are reported. The real part of the refractive index, n, is determined by variable incidence-angle reflectance to be 1.60 + or - 0.05 from 0.4 to 2.0 micrometers wavelength. Work extending the measurement of n to longer wavelengths is in progress. The imaginary part of the refractive index, k, shows substantial structure from 0.15 to 40 micrometers. The values are accurate to + or - 20 percent in the UV and IR regions and to + or - 30 percent in the visible. The k values of organic residues were also measured from the Murchison meteorite. Comparison of the kerogen and Murchison data reveals that between 0.15 and 40 microns, Murchison has a similar structure but no bands as sharp as in kerogen, and that the k values for Murchison are significantly higher than those of kerogen.

Keywords: INORGANIC AND PHYSICAL CHEMISTRY

Type: NASA, Goddard Space Flight Center, First International Conference on Laboratory Research for Planetary Atmospheres; p 340-356

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9

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Optical constants of solid methane (1989)

Khanna, R. K. ; Khare, Bishun N. ; Judish, J. P. ; [et al.]

In: CASI

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Publication Date: 2019-07-13

Description: Methane is the most abundant simple organic molecule in the outer solar system bodies. In addition to being a gaseous constituent of the atmospheres of the Jovian planets and Titan, it is present in the solid form as a constituent of icy surfaces such as those of Triton and Pluto, and as cloud condensate in the atmospheres of Titan, Uranus, and Neptune. It is expected in the liquid form as a constituent of the ocean of Titan. Cometary ices also contain solid methane. The optical constants for both solid and liquid phases of CH4 for a wide temperature range are needed for radiative transfer calculations, for studies of reflection from surfaces, and for modeling of emission in the far infrared and microwave regions. The astronomically important visual to near infrared measurements of solid methane optical constants are conspicuously absent from the literature. Preliminary results are presented of the optical constants of solid methane for the 0.4 to 2.6 micron region. K is reported for both the amorphous and the crystalline (annealed) states. Using the previously measured values of the real part of the refractive index, n, of liquid methane at 110 K n is computed for solid methane using the Lorentz-Lorentz relationship. Work is in progress to extend the measurements of optical constants n and k for liquid and solid to both shorter and longer wavelengths, eventually providing a complete optical constants database for condensed CH4.

Keywords: INORGANIC AND PHYSICAL CHEMISTRY

Type: NASA-CR-187969 , NAS 1.26:187969 , DE91-004531 , CONF-8910341-1 , International Conference on Laboratory Research for Planetary Atmospheres; Oct 25, 1989; Bowie, MD; United States

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